COMPETING WITH LOGISTICS CLUSTERS MAY 2022 i VIGNETTES FROM THE INTERNATIONAL EXPERIENCE MOBILITY AND TRANSPORT CONNECTIVITY SERIES COMPETING WITH LOGISTICS CLUSTERS Vignettes from the International Experience ii MOBILITY AND TRANSPORT CONNECTIVITY SERIES © 2022 The World Bank 1818 H Street NW, Washington DC 20433 Telephone: 202-473-1000; Internet: www.worldbank.org Some rights reserved This work is a product of the staff of The World Bank. The findings, interpretations, and conclusions expressed in this work do not necessarily reflect the views of the Executive Directors of The World Bank or the governments they represent. The World Bank does not guarantee the accuracy of the data included in this work. The boundaries, colors, denominations, and other information shown on any map in this work do not imply any judgment on the part of The World Bank concerning the legal status of any territory or the endorsement or acceptance of such boundaries. 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All queries on rights and licenses should be addressed to World Bank Publications, The World Bank Group, 1818 H Street NW, Washington, DC 20433, USA; e-mail: pubrights@worldbank.org. iii Contents Foreword..............................................................................................................................................................................................................vi Acknowledgments........................................................................................................................................................................................viii Executive Summary........................................................................................................................................................................................ ix 1. Logistics Clusters: Motivation and Context..................................................................................................................................1 2. Definitional and Conceptual Framework...................................................................................................................................... 7 Introduction............................................................................................................................................................................................................... 8 Defining Logistics Clusters through Diverse Perspectives. .................................................................................................................................. 9 Global perspective . ........................................................................................................................................................................................................ 9 Maritime shipping . ...................................................................................................................................................................................................... 11 .......................................................................................................................................................................................................... 12 Hinterland traffic. Regional development.................................................................................................................................................................................................. 14 Other Forms of Clustering...................................................................................................................................................................................... 15 Clustering by cooperation............................................................................................................................................................................................ 15 Clustering by structuring the supply chain................................................................................................................................................................ 15 Sectoral or institutional clustering.............................................................................................................................................................................. 16 .................................................................................................... 16 Why Does a Distinction Between Typologies of Logistics Clusters Matter?. 3. Logistics Clusters in the European Union................................................................................................................................... 19 Logistics and Multimodality in the European Union. .......................................................................................................................................... 20 .................................................................................................................................................................... 20 The European Union’s economy in brief. EU-level policy framework versus those of individual member states.................................................................................................................... 20 The promotion of the logistics sector in the EU......................................................................................................................................................... 20 Multimodality in the EU................................................................................................................................................................................................ 21 Multimodality and logistics clusters in the European Union................................................................................................................................... 22 The Netherlands: Logistics Corridors and Hotspots........................................................................................................................................... 23 Multimodal transport in the Netherlands ................................................................................................................................................................. 23 Logistics clusters in the Netherlands.......................................................................................................................................................................... 24 The changing role of the Dutch national government in transport and logistics plans...................................................................................... 25 The Port of Rotterdam as a policy-making pillar...................................................................................................................................................... 26 The role of the Port of Rotterdam in developing logistics nodes............................................................................................................................ 26 Logistics nodes as part of the Dutch “top corridors” approach.............................................................................................................................. 28 Logistics as part of the Dutch “top sector” approach............................................................................................................................................... 28 The Venlo logistics cluster............................................................................................................................................................................................ 29 Advantages of the Venlo logistics cluster................................................................................................................................................................... 29 The long-term perspective as key challenge.............................................................................................................................................................. 31 The local government taking ownership of logistics zones .................................................................................................................................... 32 Germany: Freight Villages and Hinterland Nodes. .............................................................................................................................................. 33 Multimodal transport in Germany.............................................................................................................................................................................. 33 Logistics clusters and logistics policies in Germany ................................................................................................................................................ 34 The German GVZ concept............................................................................................................................................................................................. 35 The Duisport multimodal transport hub.................................................................................................................................................................... 43 4. Logistics Clusters in the United States.......................................................................................................................................49 The Context of Multimodality in the United States in Brief............................................................................................................................... 50 ............................................................................................................................................................................................................... 50 U. S. gateways. U. S. multimodal transport system............................................................................................................................................................................. 50 iv MOBILITY AND TRANSPORT CONNECTIVITY SERIES U. S. Transport Policy Framework......................................................................................................................................................................... 52 Multimodal Transport and Logistics Clusters...................................................................................................................................................... 54 ...................................................................................................................................................................................................... 55 Virginia Inland Port. AllianceTexas in Fort Worth......................................................................................................................................................................................... 57 ................................................................................................................................................................................... 58 CenterPoint Intermodal Center. 5. Logistics Clusters in the Republic of Korea.............................................................................................................................. 61 The Spontaneous Emergence of Off-Dock Container Yards.............................................................................................................................. 63 Policy-Making Process to Develop Logistics Facilities in Korea......................................................................................................................... 65 The Inception of Inland Logistics Bases in Korea................................................................................................................................................ 71 Stand-alone logistics facilities .................................................................................................................................................................................... 72 The Current Level of Logistics Facilities in Korea................................................................................................................................................ 72 Integrated Logistics Facilities . .................................................................................................................................................................................... 76 6. Lessons Learned from the European and North American Experience.........................................................................83 The Different Types of Logistics Clusters............................................................................................................................................................. 84 How to Ensure Multimodal Connectivity.............................................................................................................................................................. 85 How to Ensure Local and Supply Chain Integration of the ILC.......................................................................................................................... 87 How to Promote ILCs and the Use of Multimodal Transport Connections...................................................................................................... 88 Cooperation between Public and Private Sectors............................................................................................................................................... 89 7. Lessons Learned from the Korean Experience.........................................................................................................................93 Implications of Combining Development Policies and Development Issues ................................................................................................. 94 A virtuous cycle of logistics facility development and economic development .................................................................................................... 94 Innovations in logistics facility development and expansion of the favorable cycle structure . ......................................................................... 95 .................................................................................................................................................................................................. 98 Overall Reflections. 8. Guiding Questions for Policy and Decision Makers................................................................................................................99 Through which operational channels do logistics centers promote multimodality and efficiency in logistics? What is their broader economic and logistics cost impact?.............................................................................................................................................................100 The mechanism in logistics centers for seaborne trade.........................................................................................................................................100 The mechanism in logistics centers for continental trade.....................................................................................................................................103 Broader economic and logistics cost impacts of logistics centers........................................................................................................................104 .............................................105 How feasible is it to centrally plan and guide the development of logistic clusters to foster competitiveness?. What role should government—at various levels, whether regional or international, national or subnational—assume in the planning, ..........................................106 investment, execution, and regulation cycle of logistics center development? How should this be done?. Within these principles, great variation occurs in the observed roles of government layers:...........................................................................106 How many integrated logistics centers can a country’s hinterland(s) justify, and how could this number be determined?.........................108 How should logistics center locations be determined, by who, or under which process, and with which economic and operational rationale?..........................................................................................................................................................................................................110 What sorts of financing mechanisms are better suited to logistics center development?.................................................................................111 How to attract tenants to and grow the volume of freight handled at logistics centers?..................................................................................113 What sorts of regulations, performance monitoring, planning practices, and other forms of core public sector practices should be in place to implement and sustain a logistics clusters strategy at all levels of geographic and place granularity, and at all levels of government (national and subnational)?.....................................................................................................................................................113 Within performance management, what makes a logistics center “high-performing”? How can this be measured? Should this be mea- sured by the public sector? ............................................................................................................................................................................113 What is the role of logistics clusters in improving supply chain environmental sustainability and operational resilience?.........................114 .....................................................................................................................................116 Mobility and Transport Connectivity series: 2021 reports. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE v Figures Figure 1.1. Main European Logistics Clusters. .............................................................................................................................................................. 14 Figure 1.2. Major Global Logistics Clusters with Modern Logistics Stock, 2015...................................................................................................... 15 Figure 5.1. The Gyeongbu Line and Busan Industrial Areas of Korea....................................................................................................................... 74 Figure 5.3. Procedure for Establishing the Comprehensive Plan for the Development of Logistics Facilities . .................................................. 79 Figure 5.4. Procedure for Estimating the Required Area for General Cargo-Handling Facilities. .......................................................................... 80 Figure 5.5. Policy Changes in Logistics Complexes’ Development............................................................................................................................ 81 Figure 5.6. Regional Logistics Warehouse Registrations............................................................................................................................................ 84 Figure 5.7. Korea’s Five Largest Regional Inland Logistics Bases.............................................................................................................................. 87 Figure 7.1. A Causal Loop Diagram of the Virtuous Cycle of Logistics Facility and Economic Development..................................................... 105 Figure 7.2. Paradigm Shift in the Development of Logistics Facilities..................................................................................................................... 107 Figure 7.3. A Causal Loop Diagram of the Favorable Cycle of Expanding Economic Growth from Logistics Facility Innovations.................. 108 Tables Table 2.1. Select Examples of Concepts Used to Categorize and Define Logistics Clusters................................................................................... 19 Table 3.1. 2020 SWOT Diagram for Freight Villages in Germany............................................................................................................................... 49 Table 5.1. Korean Import and Export Container Volumes, 1980–90. ......................................................................................................................... 73 Table 5.2. Export and Import Container Handling Status by Port, in 1990............................................................................................................... 75 Table 5.3. Distribution of the Port of Busan’s Import and Export Container Volume by Region, in 1990............................................................ 75 Table 5.4. Distribution by Transport Mode for the Busan to Seoul Capital Area Route, in 1990........................................................................... 75 Table 5.5. System for the National Logistics and Development Plans by Logistics Facility.................................................................................... 77 Table 5.6. Content of the Comprehensive Plans for the Development of Logistics Facilities................................................................................ 78 Table 5.7. Operational Status of National Logistics Warehouses, 2020.................................................................................................................... 84 Table 5.8. Logistics Warehouses by Area...................................................................................................................................................................... 85 Table 5.9. Status of Rail Container Yards....................................................................................................................................................................... 85 Table 5.10. Status of Supply and Operation of Inland Logistics Bases. ..................................................................................................................... 88 Table 5.11. Status of Logistics Complexes.................................................................................................................................................................... 89 Table 5.12. Operation and Development Status of General Logistics Terminals. .................................................................................................... 90 Table 5.13. Status of Joint Collection and Delivery Centers........................................................................................................................................ 92 Table 5.14. Status of Small and Medium-Sized Distribution Centers by City and Province.................................................................................... 92 vi MOBILITY AND TRANSPORT CONNECTIVITY SERIES Foreword COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE vii Logistics clusters boost logistics efficiency. The coro- investment. It provides a practical, action-oriented navirus disease 2019 (COVID-19) pandemic brought source of examples relying on the case study about a common global threat of historic proportions approach. and yielded critical lessons as to the importance of supply chain resilience—from essential medical Particularly important is the report’s role as a tool to supplies to consumer goods—in responding to such inform decision making to position logistics not as a a challenge. Today the world increasingly recognizes source of environmental externalities to avoid, but as the value of adaptive infrastructure and service an indispensable contributor to the decarbonization delivery platforms, often collaborative in nature, to and resilience plans increasingly adopted in the con- face the “certainty of uncertain situations” at all levels text of the Paris Agreement or as a matter of basic of the value chain. economic development. Logistics clusters are at the core of positioning This report discusses the impact as well as the limita- transportation and logistics as a driver of productivity tions, lessons learned from, and pitfalls of the logis- gains, environmental sustainability, resilience, and tics cluster experience in North America, Western economic growth. At least this has been the experi- Europe, and the Republic of Korea. Policymakers— ence of North America, Western Europe, and high-in- whether at the national or subnational level—looking come Asian economies such as the Republic of Korea, for ways to facilitate modal shift to lower-carbon where clusters facilitate cargo consolidation, increase modes, make their trucking industries more efficient, capacity utilization, reduce inventory requirements, help firms optimize help firms optimize inventory and promote multimodality, among other benefits. holdings and make their supply chains more oper- ationally resilient, better connect importers and Yet, outside of a select few upper middle-income, exporters with global markets, and/or expand invest- export-oriented countries well embedded in interna- ment opportunities in logistics will find examples tional value chains, such as China or Mexico, much here of possible ways to approach these challenges. of the developing world does not yet participate in these benefits, or does not do so at scale. This I am encouraged by the opportunity to “build back economic development gap, already critical before better” in the post-pandemic new normal. The global the pandemic and even more urgent now, can be supply chain has been remarkably resilient during addressed through better-informed policy making the COVID-19 crisis, but uneven outcomes call for at the confluence of infrastructure provision, service strengthening the adaptability of logistics systems delivery, and digitalization. especially in low- and middle-income countries. I believe logistics clusters will facilitate this transition in This report contributes to informing decision making, the face of disruption, from climate change to global particularly in low- and middle-income countries, to pandemics. This report thus comes at a highly oppor- deploy logistics clusters to underpin international tune time. and domestic commerce, employment growth, and Karla Gonzalez Carvajal Practice Manager for Europe and Central Asia Transport Global Practice The World Bank viii MOBILITY AND TRANSPORT CONNECTIVITY SERIES Acknowledgments This report results from a collaboration between the World Bank and the Korea Transport Institute (KOTI). The research was led by Luis C. Blancas and Cecilia Briceño-Garmendia of the World Bank and by Hong-Seung Roh of KOTI, under the overall guidance of Guangzhe Chen, Global Director of the World Bank Transport Global Practice, Franz Drees-Gross, Director of the World Bank Transport Global Practice, Karla Gonzalez Carvajal, World Bank Transport Practice Manager, and Dr. Jae Hak Oh, President of KOTI. The World Bank team included report authors Luis C. Blancas, Cecilia Briceño-Garmendia, Hong-Seung Roh, and Huub Vrenken (Consultant and Senior Logistics Expert); Gozde Isik (Senior Transport Economist) and Natalya Stankevich (Senior Transport Specialist), who provided valuable feedback that improved the man- uscript. Graciela Tejeda and Maria Luisa Juico provided excellent administrative support throughout. The authors express their gratitude to the public and private sector entities who gave of their time to provide insight that informed the preparation of this report. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE ix Executive Summary The deployment and operation of high-volume, helping policymakers, particularly in middle-income multimodally connected logistics clusters enables countries, tailor their planning, decision making, and logistics efficiency, driving productivity increases institutional practices to support the development of and economic growth. Logistics clusters are logistics clusters as a way to compete in the global places where various kinds of logistics activities are economy. The report does this by presenting and co-located. Co-location unlocks several dimensions drawing lessons from three vignettes of international of logistics efficiency via service specialization, sup- experience through the case study approach: the ply-demand matching, sharing of equipment and case of North America, as represented by the United infrastructure assets across multiple users, multi- States; the case of the European Union, as repre- modality, freight consolidation and deconsolidation, sented by the Netherlands and Germany; and the facilitation of backhauls, public-private partnerships, case of East Asia, as represented by the Republic of and collaboration between service providers and Korea (referred to as “Korea” throughout the remain- beneficial cargo owners. Most of the world’s logistics der of this report). top-performing countries, as measured by the World Bank’s Logistics Performance Index (LPI) standard, The experience of the United States, the have deployed logistics clusters as anchor nodes in Netherlands, Germany, and Korea confirms their logistics systems. there can be multiple approaches to facilitating logistics through clusters. In the case of the United The international experience with logistics cluster States, logistics cluster development unfolded organ- development is largely confined to high-income ically based on market and demand-side consider- and a select few upper-middle income countries. ations, with lead role participation of private sector In much of the rest of the world several questions entities, in particular real estate development compa- regarding logistics cluster development remain nies, and almost always through some form of pub- underexplored, posing both challenges and oppor- lic-private partnership arrangement with local, state, tunities for policymakers, industry practitioners, and and/or national government participation (often all investors. These questions include: What should be three) to make the projects viable. The European the role of government in the planning, investment, experience is also market-led, but with a more grad- execution, and regulation cycle of logistics cluster ual historical transition from greater incidence of cen- development? How many logistics clusters should a tral planning and with a strong tradition, preserved country have or can justify, and how should one go to this day, of collaboration between public sector, about determining this in practice? How do logistics private sector, and academia. The Korean experience, clusters promote desirable outcomes such as low-car- in contrast, shows a more prominent participation of bon logistics, lower logistics costs, and more resilient the state through national and subnational planning, supply chains? More fundamentally, what does the goal setting, performance management, supply-de- term “logistics cluster” mean in different contexts; mand monitoring, and network design, among is there a consensus on these definitions, and does other key functions, while still placing emphasis on consensus matter? This report seeks to provide demand-driven development as a safeguard from answers to these questions, with the objective of unnecessary, unjustified, or wasteful investment. x MOBILITY AND TRANSPORT CONNECTIVITY SERIES The North American, Dutch, German, and Korean with (1) a high-capacity multimodal transport experiences with logistics clusters, while unique network; (2) one or more cargo terminals or gate- to each context, share certain fundamental ways (such as a maritime port); and (3) a freight principles across countries. First, all cases rely, generation hinterland. Meeting these conditions albeit to varying degrees and in specific ways, on facilitates multimodality and freight generation-at- strong public sector institutions from the national traction potential. Since these conditions can down to the local level. These public institutions only be met in limited cases, the number of ILCs see connectivity and logistics from the wider lens of a country can justify and sustain is, by the nature economic, social, and environmental management, of economies of agglomeration, limited, although and use clusters to achieve policy goals beyond the no predefined way exists to determine this, nor facilitation of freight activity alone, such as land use necessarily does an “optimal” number of logistics goals (for example, reducing land use conflicts), clusters that a given economy might justify. This public safety and mobility goals (such as reducing is in part because demand for logistics services is heavy vehicle traffic in high-density areas and other dynamic and therefore clustered logistics capacity forms of road congestion), job creation, and a more should adjust to demand changes over time, not even spatial economic development. Second, logistics necessarily through the development of greenfield policy and decision making in these countries empha- locations by, for example, deploying modular sizes agglomeration—the generation of economies growth approaches. This also implies that logistics of scale, scope, density, and frequency—by pursuing clusters are typically a fixture of leading rather a necessarily limited number of high-volume nodes than lagging regions in terms of freight gener- that can naturally develop as clusters. This is in con- ation, to enable economies of agglomeration. trast to approaches that have been less successful in Specialized private sector participation, such as in the international experience, where terms like “logis- the North American experience, may lead to early tics center” or “logistics park” or indeed “logistics cluster development in seemingly lagging regions, cluster” are used loosely, leading to a proliferation of based on a deep understanding of future long- would-be logistics service co-location facilities without term land use and economic patterns. formal recognition as such, thereby often resulting in these facilities lacking multimodal connectivity or • Standardization of equipment, information and well-placed location, preventing agglomeration and communication technologies, and cost-effective value creation. operations are necessary to support infrastructure provision to allow logistics clusters to ultimately This report draws several lessons from the deliver on outcomes such as market uptake, international experience on logistics cluster multimodality and modal shift, environmental development relevant for developing countries efficiency, and logistics costs savings. embarking on this agenda: • The value creation potential of a demand-driven • A limited number of “integrated” logistics centers logistics cluster tends to be, all else being equal, (ILCs) should form the core of a national logistics proportional to the extent and breadth of activity clusters strategy. ILCs are defined as clusters of co-location at the cluster; that is, the availability logistics activity well-connected to and integrated of a wider set of logistics services, from customs COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE xi clearance to asset- and non-asset-based mul- of the past two-plus decades, since the early timodal transportation and logistics service 1990s. Whether this planned approach is feasible provision, to equipment handling and repair, to in countries of different profile as Korea, such as value-added warehousing and free zone areas at a large, continental countries, remains a question given location deepens the economic impact of the for further research. Nevertheless, international cluster and leads to stronger logistics outcomes. experience shows that irrespective of economic geography or other context-specific character- • The role of government in the planning and devel- istics, some level of overarching (national, for opment of logistics clusters tends to be larger and instance) planning can help coordinate efforts at more mission-critical in denser regions, where more geographically granular levels of decision land is scarcer and the general public may be making, to support goals such as standardization, more exposed to the negative externalities asso- national cohesion, international integration, corri- ciated with the transportation and handling of dor development, and interregional connectivity. freight, such as the emission of greenhouse gases and local pollutants, noise pollution, road acci- • Perhaps the most formidable challenge facing dents, and road congestion. This in part explains the global logistics clusters industry at present, the relatively more prominent participation of across the income spectrum, is adapting to supply the public sector in European logistics clusters, chains that are expected to be more exposed to and the primary planning role the government disruption (whether from severe weather events, of Korea has played in the development of conflict, pandemics, demand shocks, etc.) as well Korean logistics clusters, compared to the North as to innovation in the digital technology revolu- American experience. tion underway. On the one hand, the co-location of logistics activity in clusters facilitates learning • It is in principle possible to plan a network of and technology transfer across firms, which make logistics clusters at the national level—as the supply chains more operationally resilient and Korean experience shows. The centralized, more support the technology transition. On the other predictable nature of this approach, in contrast hand, the ongoing re-thinking and re-organization with the more fragmented, private sector-led of supply chains, with likely higher levels of inven- approach of North America, with the European tory as a hedge against disruption or more unpre- experience falling somewhere in-between, allowed dictable supply-demand patterns, partially reduces the government of Korea to pursue complemen- the inventory optimization advantages of large tary policy actions that resulted in a reinforcing set logistics clusters through stock centralization. The of outcomes: Identification of demand for logistics new challenges facing businesses and global value infrastructure led to the development of logistics chains could redefine the role of logistics clusters facilities, which improved national logistics com- by making physical co-location less critical to the petitiveness, which led to trade growth, which ulti- economic and financial sustainability of supply mately led to economic development, thus gener- chains. The balance of these trends may have ating greater demand for logistics infrastructure. implications as to what “agglomeration” means This is the kind of “virtuous circle” logistics clusters in logistics and what drives value. Government can support, but this is also a process that plays agencies will need to adapt policies to this chang- out over time—in the case of Korea over a period ing context. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 1 1. Logistics Clusters: Motivation and Context 2 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The geographic- and place-specific clustering of and rapid customer response (with storage decen- logistics activities with multimodal connectivity tralization). China, the only country in the LPI’s top-30 to and from one or more freight-generating not a high-income nation, is already a global leader hinterlands yields multiple economic benefits in maritime clusters and inland waterway logistics. and is therefore a desirable policy outcome. Currently, China is conducting rail freight moderniza- Logistics clusters rest on the principle of activity tion initiatives as the development of its vast high- co-location: the agglomeration of multiple shippers, speed rail (passenger) network released conventional transport and logistics service providers (whether on rail lines for more efficient transportation of cargo. In an own-account or for-hire basis, and when for-hire, addition, China has adopted national and subnational whether on a common-user or dedicated basis), plans to develop large-scale, modern, multimodally terminal operators, and ancillary service providers, connected inland logistics clusters. To date, most of at a place that has ready and generally uncongested China’s operationally proven logistics clusters are access to the network of multiple (typically at least located along its eastern seaboard. The development two) transport modes. Activity co-location generates of logistics clusters in the western provinces is seen value1 through economies of scale, scope, density, as a policy lever to promote a more balanced eco- and frequency, and it both incentivizes and enables nomic geography across the country. the sharing of resources among cluster members. The LPI top-30 countries outside of the EU are The economic impact of logistics clusters has home to some of the most important production long been observed in the (mostly) high-income and consumption markets in intercontinental countries generally recognized as the world’s supply chains. This includes, above all, the United most logistics-efficient nations. As a result, States, where long lengths of haul, along with a logistics clusters, as a resource, have long been highly efficient rail intermodal and asset- and non- championed by countries with performance in asset-based trucking network underpin the develop- logistics. For example, by the standard of the World ment of some of the world’s largest and most diver- Bank’s Logistics Performance Index (LPI), 29 of the sified, best-connected logistics clusters, including 30 most logistics-efficient countries in the world are CenterPoint Intermodal Centers Elwood-Joliet, in the high-income economies, and substantially all are Chicago area (largest inland logistics hub of North known to have deployed logistics clusters, either as America), and AllianceTexas, in the vicinity of Dallas. nodes or as part of broader networks. Most of these The list also includes Singapore (largest maritime countries are European Union (EU) member states. transshipment hub port in the world), the United As illustrated in figure 1.1, the European experience Arab Emirates (UAE), operator of a major regional has led to the operation of logistics clusters either transshipment hub port, and Korea, which has oper- linked to metropolitan areas, or deployed along ated a centrally planned network of logistics clusters well-defined transport corridors—or both—a sign of connected to ports and multimodal transport as a key market maturity that seeks to balance cost leadership component of its national development strategy. (with storage centralization) with service leadership 1 For the purposes of this report, the term “value” denotes both enterprise value at the firm level—typically measured by such metrics as return on capital employed, and economic value at the local, regional, national, and even global level—typically measured by such metrics as economic internal rate of return. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 3 Figure 1.1. Main European Logistics Clusters Source: Liu and Savy 2012. 4 MOBILITY AND TRANSPORT CONNECTIVITY SERIES A direct relationship connects the efficient opera- Yet, the practice of planning for and implement- tion of node- and network-based logistics clusters ing a logistics clusters strategy in middle-income with logistics performance. This relationship has countries remains incipient, insufficiently not gone unnoticed in the developing world, and has understood, and with a mixed track record of led to heightened interest, particularly on the part of execution in most cases. Outside of select cases middle-income countries, in pursuing interventions in some of the largest middle- and high-income that can facilitate logistics clusters as a matter of countries across Latin America, limited development economic strategy. Meanwhile, low-income countries of modern logistics clusters takes place in middle-in- have the opportunity to learn from the experience come countries (figure 1.2). The same is true even of high- and middle-income countries and pursue in some high-income environments. This signals a “early interventions” in logistics clusters, to facilitate need for a base of evidence to help countries create a transition to integrated logistics service delivery as and execute reform and planning pathways that lead the value density of the commodities moved in these to successful facilitation of logistics clusters where countries increases. operationally warranted. Figure 1.2. Major Global Logistics Clusters with Modern Logistics Stock, 2015 Source: https://www.prologis.com/news-research/global-insights/evolution-logistics-real-estate-clusters COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 5 Logistics clusters lack a unified definition; provid- This report intends to shed light on the international ing clarity on this issue should be a major, if basic, experience with the development of logistics clusters focus of any effort to contribute to the sectoral in support of increased competition in global and policy dialogue. From a policymaking point of view, regional markets. It will do so through the case study a logistics cluster ultimately refers to the physical approach, by exploring the experience of Western organization of logistics activities where co-location Europe, North America, and Korea—three successful of—and collaboration among—complementary examples—indeed, powerhouses—in the logistics activities creates value. But not all clusters are “cre- clusters space. The development experience of Korea, ated equal.” A key distinction between manifestations complemented by selected vignettes from the inter- of logistics clusters is the extent of this activity co-lo- national experience in high-income countries, will cation (“agglomeration”) along the dimensions of be used to illustrate points and derive policy impli- multimodal transport infrastructure access, logistics cations. The report will also offer answers to a set of service delivery, ancillary service delivery, and the guiding questions that could inform policy making in availability of human and technical (for example, a practical, applied manner, yet are nuanced enough information technology) resources. It can be argued to illustrate both the pitfalls and value-creating power that the agglomeration of (typically containerized) of logistics cluster development. logistics activities where the extent of activity co-lo- cation is substantial and comprehensive rather than The report draws on several research methods. The limited is desirable. Then again, not all economies, work has been informed by structured face-to-face nor all contexts within a given economy, can neces- and remote interviews with practitioners, such as sarily sustain large-scale, integrated logistics clusters operators of logistics clusters and end-users of these that provide substantial activity co-location, and in clusters; extensive review of the literature on logis- those instances less comprehensive agglomeration tics clusters; historical analysis of the evolution of is warranted. A practical, illustrated discussion of logistics clusters over time in the report’s chosen case this nuance can elevate the policy-making dialogue studies; the deep, first-hand familiarity of the Korea associated with logistics clusters. Transport Institute (KOTI) with Korea’s experience; and the World Bank’s international experience cap- At their most granular level, logistics clusters turing common challenges and policy issues facing manifest the concept of location logistics. While countries looking to develop a network of logistics this issue has been explored in highly technical (such clusters as part of their logistics strategies. as supply chain optimization) literature, it is seldom addressed in policy documents. Location logistics is Policymakers in developing countries, particularly as much about logistics and supply chain manage- middle-income countries, constitute the report’s main ment practice as it is about real estate practice, land audience. The Korean experience may be particularly use planning, land use-transport planning integra- illustrative, given Korea’s relatively recent transition tion, and land use administration: the performance from middle-income to high-income nation. of logistics clusters hinges upon location, land use, long-term land valuation, urban and regional plan- ning, land development, and landlord-tenant relation- ship management (such as, critically, the ability of a landlord to attract anchor tenants to the cluster). 6 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The structure of the report is as follows: An opening chapter presents definitional and conceptual issues related to logistics clusters. The report will then present, in turn, the case studies of the Netherlands, Germany, the United States, and Korea. Lessons will be drawn from these cases in separate chapters. Lastly, the report will propose a list of policy ques- tions, derived from the World Bank’s cross-country experience, and attempt to answer them based on the evidence presented in the preceding chapters. Reference Liu, Xiaoming, and Michel Savy. 2012. “Logistics and the City: The Key Issue of Freight Villages.” In Sustainable Transport for Chinese Cities, edited by R. L. Mackett, A. D. May, M. Kii, and H. Pan. Transport and Sustainability Series, Vol. 3, 297–318. Bingley, United Kingdom: Emerald Group Publishing Limited. https://doi.org/10.1108/ S2044-9941(2012)0000003016. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 7 2. Definitional and Conceptual Framework 8 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Introduction The logistics and supply chain management litera- describe the co-location of logistics activities, includ- ture, as well as practice, offer no uniformity as to the ing “center,” “zone,” “park,” “platform,” “hub,” or terminology used to define and describe “logistics “campus.” All, however, could in practice have slightly clusters” or “integrated logistics clusters.” The term different meanings depending on context (see table “logistics cluster” is often described and charac- 2.1). Further, terms such as “dry port” and “freight terized in broad terms, setting aside, for example, village” are used for zones in which logistics services the question of what are, if any, the geographical are clustered, but possibly have slightly different or functional boundaries of logistics clusters. Many functionalities than in logistics clusters or its above- other terms seemingly synonymous to “cluster” mentioned varieties. Table 2.1. Select Examples of Concepts Used to Categorize and Define Logistics Clusters Logistics Clusters through Diverse Perspectives Global Starts from the concept that a cluster is any region with a high concentration of logistics activities relative to the total population or economy. Classification approaches include, but are not limited to, modal orientation, scope, or functionality. Maritime Uses a categorization useful in understanding how seaports and hinterland nodes interact, with satellites supporting seaport functions; load centers serving as container feeder points; and distribution centers working to (de)consolidate container loads. Hinterland traffic Introduces terms linked to hinterland traffic and the relationship between transshipment facilities and/or nodes. Regional development Introduces the perspective of regions rather than that of global trade. The definition excludes logistics activities on general purpose industrial zones, and requires a central management model for the benefit of the transport and logistics companies. Other Forms of Clustering Cooperation Refers to logistics service providers that join forces with transport service providers aiming to create, among other things, risk sharing joint ventures. Structure of the supply chain Extends the concept of cooperation clusters to take advantage of scale economies even if the facility operates in isolation. For instance, this category extends the definition of logistics clusters to include large warehouses settled on isolated sites optimized for sourcing and distribution to the markets they serve. Sectoral or institutional Includes cooperation and common ground between organizations active in and supportive to logistics services, such as institutes for education, research, development, and the promotion of innovation. Source: Original table produced for this publication. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 9 The absence of a single widely held set of defini- This chapter will assess the categorization of clus- tions results from a broad heterogeneity as to, for ters of logistics services more prominent in current example: academic, policy, and sectoral dialogue. The intention is not to resolve this complexity by arriving at what • The functions included in the cluster. Logistics should be considered a consensus or most accurate services clearly include more than transport and or “best” terminology. Rather, the goal is to exemplify transshipment services alone, but should repair of the concepts used, highlight their rationale, and clar- containers be included? Or value-added services ify why these distinctions matter. For example, defini- such as packaging, labeling or assembly? tions of the abovementioned terms could be incorpo- rated into national legislation or government plans, • The boundaries most useful to the definition of to make them more transparent and to strengthen the cluster. Should the cluster have clear physical accountability. Similarly, the development of clusters boundaries, or even be fenced and gated? Should and the promotion of investment in logistics clusters the cluster be placed under an umbrella organiza- could benefit from a comparison of several terms to tion responsible for management and marketing? better describe what the facilities in question will do and thus what kind of financial and economic value they could generate. Defining Logistics Clusters through Diverse Perspectives The exploration of recent literature on this subject Global perspective shows that attempts at defining logistics clusters have been approached in various ways, including: Sheffi (2012) defines a logistics cluster as a region with a high concentration of logistics activities • Seeking an all-encompassing understanding, from relative to the total population or economy. Sheffi global perspective; observes logistics clusters vary markedly in size. The geographically-bordered cluster formed by • Understanding clustering from the perspective of the Plataforma Logística de Zaragoza (PLAZA) in maritime shipping; and Zaragoza, Spain is presented as example, but so are diffuse regions, such as the corridor along the • Understanding clustering from the perspective of Panama Canal, the Dutch Logistics Corridor, the regional or local development. Southern California cluster around Los Angeles/Long Beach, and Singapore, home to the city-state mari- time port, airport, and ancillary service subclusters. 10 MOBILITY AND TRANSPORT CONNECTIVITY SERIES In Sheffi’s view, logistics clusters can be amorphous, Park in Dallas. These parks are built around large with no clear borders and no central management. intermodal facilities. Logistics parks, then, are defined by their ownership and geographic property boundaries, developed by • Pure trucking logistics hubs, which usually serve an agency such as a real estate investment trust, urban areas or supplement industrial clusters private companies, port or airport authority, or dominated by various industries. Freestanding government agency. Logistics campuses are a special trucking parks typically serve a short radius of type of logistics park, where not only the land and approximately 100 miles. buildings are operated by a single entity, but the same entity handles all logistics and distribution Generally, the modal orientation also implies a ser- activity in the park. An example is the United Parcel vice orientation attractive to certain companies. Air Service (UPS) logistics cluster in Louisville, Kentucky, logistics parks tend to attract companies dealing with that also houses many other customers for which time-sensitive, high-value items, while port logistics UPS manages supply chain operations. Logistics parks attract enterprises dealing with the large vol- clusters often contain more than one park as well as umes moved by maritime transport. These air, port, a range of other logistics-related facilities. and rail logistics parks also serve as transshipment points between nodes in global supply chains, such Sheffi observes various ways of categorizing clusters, as ports serving to move freight between ships and while rarely producing mutually exclusive definitions. rail and/or trucks. Possible classification approaches can be based on modal orientation, scope, or functionality. Scope-Based Categorization Modal Orientation The scope-based categorization distinguishes between geographical scales: Categories in modal orientation include, for example: • International, such as most maritime port- and airport-based logistics parks. Other parks, for • Air logistics parks, such as Memphis Airport; example, inland ports, can also serve as distribu- Alliance Airport in Fort Worth, Texas; Hong Kong tion hubs for international shipments. International Airport; Schiphol Airport in the Netherlands; Frankfurt Main Airport; Incheon • Regional, for handling regional distribution Airport in Korea; and Changi Airport in Singapore. needs, such as PLAZA, the Zaragoza Logistics Park serving the Iberian Peninsula and southwest • Port logistics parks, such as Rotterdam in the France, or the Greater Richmond Logistics cluster Netherlands; Elizabeth, New Jersey; Los Angeles- in Virginia, serving the East Coast distribution Long Beach area; Singapore Port; and Dubai needs of its tenants. Maritime City. • Urban distribution parks, typically set up outside • Rail logistics parks, such as BNSF Logistics large urban areas to manage the pickup and Park-Chicago and the Union Pacific (UP) Logistics delivery of goods in and out of the urban area. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 11 Urban parks are adjacent to many major cities, Other examples include single-commodity logistics such as New York, or, on a much smaller scale, parks that focus on particular verticals, such as food, Lyon Logistics. By transloading in these centers, electronics, and chemicals, in support of a correspond- truck movements into the traffic congested urban ing industry cluster. There are also logistics parks spe- areas can be reduced. Many cities in Europe cializing in certain service types, such as cold-storage have regulated access for cargo and restricted and distribution, or the handling of bulk commodities servicing to time windows and/or to the use like grains, chemicals, liquids, or hazardous materials. with smaller vehicles. Distribution centers offer cross-docking and some warehousing capacity for Maritime shipping that purpose. These centers are typically serviced by road only. Some cities have initiatives in place Rodrigue (2020) and Notteboom, Pallis, and Rodrigue to create rail-bound connection with other urban (2022) introduce the following terms for transport agglomerations. nodes in maritime shipping: Functional Classification • Gateway is the interface between maritime and inland transport (that is, the seaport). A classification along functional lines produces, for example, types of customs and taxation-advantaged • Satellite terminal refers to a facility located at places, including: a peripheral and less-congested site that often performs activities too space-consuming and • Foreign-trade zones (also referred to as free- costly for the maritime terminal. trade zones, free zones, or similar terms), which have special customs procedures and are often • Load center is the inland intermodal terminal co-located with gateways such as maritime ports servicing a regional market and is the origin or and airports. Items that are imported and then destination region of the containers. Often, these re-exported through such locations are not sub- facilities are near centers of economic activity, ject to duty. where cargo is consolidated. • Bonded logistics parks, which include a subset of • Transfer hub is an inland hub where containers warehouses and storage facilities where imported are transshipped between rail services and/or goods can be stored without duties paid until barge services. The rationale for this type of node released into the host country. Many logistics is to enable optimization of operations by creating parks, typically those near ports and airports, have a hub-and-spoke system, which is only realistic for a bonded warehousing area within the park. long-distance haulage in the hinterland. • Export processing zones, which are specific areas • Distribution center performs an array of val- or sometimes “virtual zones” that provide a set of ue-added functions to the freight, with transmodal export subsidies offered by the government to operations dominantly supported by trucking. It exporting industries. can concern transloading between containers and trucks, cross-docking (transloading and sorting) and warehousing, which includes storage. 12 MOBILITY AND TRANSPORT CONNECTIVITY SERIES This categorization is particularly useful to under- Separate from the categorization, transfer hubs have stand how seaports and hinterland nodes interact, become an exceptional node. Europe has numerous with satellites supporting seaport functions (for trimodal terminals connecting rail, inland waterway, example, services related to handling and storage of and road systems; however, they are rarely used containers), load centers as feeder points of contain- as hubs for transfer between rail and road or rail ers, and distribution centers for (de)consolidation of and inland waterways. In practice, the key feature container loads. of trimodality for clients is that users have compet- ing routing options (barge and rail) for transport Practice shows that a distinction between these types between the inland terminal and the seaport. Few of inland nodes is not readily evident because nodes intermodal rail operators have set up a hub-and- typically develop into having more roles. The prime spoke network in Europe, striving for wide geograph- objective of a satellite terminal is relieving the con- ical coverage of their intermodal service network; gested seaport terminal, but being devised as such consequently, the hub-and-spoke strategy has been also means container stocks are well available in the abandoned. In Europe (and possibly North America) terminal and good connections exist with the sea- hub functions might still be provided by marshaling port, such as through frequent intermodal transport yards in which wagon sets are rearranged. services. That makes a satellite terminal attractive as a basis for transport and logistics operators in the Hinterland traffic hinterland, which provides development opportuni- ties. In a similar way, the load centers have the prime Other sources in the discussion of clusters in hinter- objective of serving as the cargo consolidation point land traffic produce the following terms: in the hinterland. They are closer to clients of the maritime shipping services and the volume of traffic • Inland container terminal and intermodal attracts shipping lines and seaport operators looking terminal, which are two terms used for the to develop these into container storage points and transshipment facility between road and rail or use container-related services. This decentralization between road and inland waterways. This defini- will further increase the base load for multimodal tion could also include the space for storage and transport services, which can become more frequent. container-related services, but does not include any other logistics services. Together, the gateway, satellite terminals, and load centers can be considered the backbone of the con- • Inland port, which describes an inland node tainer transport services as well as container logistics. connected by rail with a seaport. The term inland Having this backbone creates good potential for port in Europe is used for transshipment nodes for developing a wide range of logistics services around inland waterways. In both definitions the inland them and therefore develops terminals in the hin- port could also accommodate other transport and terland from container transport nodes into clusters logistics services. of logistics services, which is also what has become common practice. • Dry port has been used to indicate any sort of inland facility, from plain inland container terminal to a more assorted platform of logistics services. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 13 The term is commonly applied to facilities in flows on main hinterland corridors into services middle- and low-income countries, less so in the with a limited number of inland terminals, simpli- European Union and North America. As part of a fies the processes in the seaport terminal, enables wider effort to promote a network of dry ports in fast transfer, and avoids stacking. The terminal the Asia and Pacific region for efficient exchange operator can optimize its flows of containers, of cargo, the United Nations Economic and Social full and empty, and maintain high levels of asset Commission for Asia and the Pacific (UNESCAP) utilization. Customs clearance is also moved from produced a regional framework for the develop- the seaport to the inland terminal. In addition to ment, design, planning, and operation of dry ports streamlining its operations, the concept improves (UNESCAP 2018). This work finds that dry ports in customer service levels because the position of this network would need to satisfy basic require- the containers, for both imports and exports is ments, summarized as follows: closer to the client base. ◊ H ave infrastructure and equipment for the • The extended gateway, introduced by VIL handling, consolidation, storage, and modal (Flanders Institute for Logistics) in Belgium, has a transfer of containers and other types of wider societal scope. The essence of this concept, unitized cargo clustering of logistics activities and bundling of cargo flows, must serve the interests of the ◊ Have the authority, capability and facilities for business community as well as of the society as a all border clearance of cargo whole. It creates conditions for reducing logistics costs and improving logistics service quality, which ◊ Be located within, or close to, concentrations of in turn make the hinterland consistently attractive industry generating export and import trade, to other industrial activities. The bunding also but can be located remotely from seaports promotes more sustainable, multimodal transport and controls the impacts of spatial development. ◊ Be connected to railways for long-haul trans- The concept has become the basis for the devel- port from seaports, or indeed from other dry opment strategy of the Port of Antwerp and its ports, and to roads of adequate quality for local Belgian hinterland. pickup and delivery of cargo These other terms are consistent with the classifica- • The term extended gate is used by the terminal tion advocated by Rodrigue and Notteboom (2020). operator Hutchinson Port Holdings, owner of Dry ports, extended gates, and extended gateways Rotterdam-based ECT, for its (own and third-party) emphasize the integration of other services next to inland container terminals in the Netherlands, the transport network features only, particularly the Germany, and Belgium, which are connected with provision of customs services. The extended gateway ECT’s terminal complex in the Port of Rotterdam. not only shifts these functions, but also ambitiously The operator connects this network of terminals develops a balanced and integrated logistics system, by scheduled frequent rail and barge services, supporting maritime trade and maximizing syner- where the inland terminals act as “extended gates” gies with other development prospects in the port of the deep-sea terminals. An essential element to hinterland. the extended gate concept, bundling of container 14 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Regional development The definition excludes logistics activities in general purpose industrial zones, and it requires a central Other initiatives give rise to the perspective of management model for the benefit of the transport regions rather than global trade. and logistics companies. It must have capacity and ambition to generate synergies and promote As listed on its website, the European association improvement and modernization of the transport Europlatforms, well known in Europe, defines a and logistics sector. Further, it must improve con- transport and logistics center (TLC) as a “center nectivity of the region and promote the use of inter- in a defined area within which all activities relat- modal services. ing to the transport, logistics and distribution of goods, both for national and international transit, Transport and logistics centers are referred to as are carried out by various operators on a commer- interporti in Italy and Güterverkehrzentren (GVZs or cial basis” (https://europlatforms.eu/Logistic%20 freight villages) in Germany. In the definition of CenterDefinition.html). Some of its key characteristics freight villages (or FVs) by German law, the types of are specified as follows: envisaged tenants in the GVZs are specified as trans- port companies, logistics service providers, ancillary • It must comply with European standards and service facilities, and logistics-intensive industrial and quality performance to provide the framework for trading enterprises. commercial and sustainable transport solutions. The entities have stated objectives to promote • It is important that it is managed in a single and intermodal transport. The intermodal connections neutral legal body (preferably by a public-pri- they provide for long-haul transport typically are vate-partnership), in order to ensure synergy and railway connections—in Europe, attempts for services commercial cooperation. dedicated to unitized continental cargo transport on inland waterways so far have not succeeded. A • It must allow access to all companies involved in majority of the logistics centers in this category are the activities set out above. (This includes railway exclusively for continental traffic; others also connect and barge transport services.) with seaports for maritime containers. • The operators can either be owners or tenants of Because they offer land in a zone with clear buildings and facilities. geographical boundaries, the logistics centers of Europlatforms can be considered logistics parks, • It must provide the required facilities, equipment according to Sheffi’s definition. and services to the users, as well as public services for the staff. The European Union and its member states also promote initiatives from a regional perspective. They • It should preferably be served by a multiplicity of cofund projects that stimulate massification of cargo transport modes (road, rail, sea, inland waterways, flows to make multimodal transport solutions feasi- air)” (Europlatforms 2017). ble, and increasingly focuses on identifying common benefits of transport users and on collaboration COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 15 models. Examples include Clusters 2.0 and Lean transport in order to reduce the social burden of and Green projects, which try to bring pairs or small the transport system, including different types of groups of regions and companies together for environmental pollution, traffic unsafety, and costs of cooperation. The funding of these initiatives must be congestion. seen in the light of policies of stimulating multimodal Other Forms of Clustering All abovementioned typologies have intentional open space around terminals. Clustering happens geographical components of clustering of logistics through consolidating road cargo into full train services. This section provides examples of clustering cargo, resulting in a more efficient long haul. While by cooperation between companies and clustering by the intermodal transport services are open for use structuring the supply chain. to third parties, the shareholders typically provide substantial base loads. Terminals can be owned by Clustering by cooperation the joint ventures or by railways. An example of clustering by cooperation is the UIRR, Clustering by structuring the supply chain the International Union for Road-Rail Combined Transport in Europe. Since the 1970s, European Originally, UIRR focused on continental cargo, and logistics service providers have been joining forces today, UIRR-companies claim the larger share in with railway companies in so-called UIRR-companies, continental intermodal cargo, with their business which are risk-sharing joint ventures where railway model common in this traffic. Similar joint ventures companies retain a minority share. Today, the UIRR between logistics company and railway companies includes approximately 35 companies, of which some not associated with UIRR also exist. Typical terminal are terminal operator only. They provide intermodal layouts and the equipment differ between maritime transport services for unitized continental cargo in and continental cargo flows; for example, in contrast swap bodies and semitrailers between a network to container terminals in maritime chains, continental of terminals. The difference between the previously cargo terminals need only limited space for storage mentioned Europlatforms and UIRR terminals is that of loading units. Many of the larger terminals have UIRR terminals are not necessarily surrounded by adapted in order to be capable of handling both mar- land reserved for logistics services, even though the itime and continental cargo. The boundary between logistics service providers, also shareholders, likely UIRR and Europlatforms initiatives is quite fluid, with have assets—such as warehouses or a transport UIRR-shareholders making use of Europlatforms company—nearby. In addition, operations typically facilities and UIRR services open for third parties. run between densely populated regions, which little 16 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Logistics services providers and cargo owners have Sectoral or institutional clustering such scale that operating in isolation provides suffi- cient efficiencies and quality. An increasing number The term logistics cluster is also commonly used to of so-called XXL-warehouses have settled typically indicate cooperation and common ground between on isolated sites, often near highway crossings, and organizations active in and supportive of logistics are thus served by road only. These locations are services, such as institutes for education, research, optimized for their sourcing and distribution to the and development, along with the promotion of markets they serve, for example, distribution for one innovation, associations, or other bodies for pro- country or a group of countries. An oft-cited expla- moting logistics sectors. The interactions of these nation is the increase of e-commerce for consumer organizations with the range of companies involved goods, which have boosted parcel services with tight in the provision and use of logistics services, and delivery windows. the presence of a strong logistics sector—located in clusters or not—is vital to the organizations’ ability to Such isolated large warehouses could still fit in contribute to logistics companies. Such ties, however, Sheffi’s widest definition of logistics clusters if they do not necessarily require geographical proximity. are, for example, included in a logistics corridor. Their success could fairly be attributed to the benefits of the quality of transport infrastructure rather than to other common characteristics of that logistics cluster. Why Does a Distinction Between Typologies of Logistics Clusters Matter? The distinction between types of logistics clusters is storage, while clusters for air freight need not just for observation and registration, but is also cross-docking facilities, and bonded zones, dry important for explaining the development of clusters ports, and extended gates need fencing and and forecasting opportunities. The objectives of each customs facilities. The scale of operations also type of logistics clusters differ, in the markets and defines the size of these facilities. cargo movements they serve, and therefore also differ in the types of stakeholders they likely engage. 2. Defining transport connections. These connec- tions are preferably large-scale and frequent in The typology of logistics clusters is important in: port hinterland services; for urban distribution centers connections are designed for timely 1. Recognizing and defining certain technical charac- entry and exit of urban areas and highly diffused teristics. For example, clusters for the maritime inbound traffic. shipping sector need facilities for container COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 17 3. Understanding the type, extent, and distribution 6. Understanding, on the basis of these insights, the of the benefits of the logistics cluster. The rational opportunities and the (distribution of) risks. Where of urban distribution centers and FVs is, mainly, profitability is likely, the private sector will be to decrease negative impacts of local traffic by interested in initiative and land ownership. reducing and channeling local road transport. Public authorities could accommodate this and, However, the impacts are mainly social and if there are considerable social objectives in play, efficiency gains to the cargo distributors could they could include extra requirements in the be low. A regional hub such as Logistics Platform permitting process. Depending on the foreseen Zaragoza (PLAZA) in Spain, provides much (distribution of) benefits, public authorities could employment, both direct and indirect. A satellite instead decide on developing the clusters them- terminal is space intensive and will not deliver selves and lease plots for logistics services in a much direct employment, but will improve effi- landlord model, decide on tendering concessions, ciency and effectiveness of the maritime cargo or find other forms of public-private partnership flows, while its connecting multimodal services in the development. Understanding these possi- save externalities compared to road use. bilities and risks will help identify the best financ- ing model for each cluster. 4. Identifying stakeholders, potential users, tenants, and potential investors. The actors involved in The literature and practice suggest no typology is logistics clusters vary between the different fully “MECE”—that is, mutually exclusive and collec- cluster types. In addition, the level of engagement tively exhaustive. Characteristics of a specific cluster (user, settler, or developer) will depend on the tend to correspond and overlap with multiple types. functionality. Understanding the position of the Clusters and their environments also develop in an cluster and its facilities from the user’s context is organic way and functionality can change, for exam- important. ple, if certain industries in the region or in connected seaports grow or decline, or if other clusters emerge. 5. Understanding, in relation to all the above, key success factors and minimum conditions. Decisions in the design process must always consider the needs. Failure to fulfill vital requirements could result in potential users losing interest. 18 MOBILITY AND TRANSPORT CONNECTIVITY SERIES References Europlatforms. 2017. “Logistic Platforms: Objectives and a View of Investment Costs.” Presented given at the Europlatforms conference, “Group of Experts on Benchmarking Transport Infrastructure Construction Costs,” Geneva, July 10–11, 2017. https://www.unece.org/fileadmin/DAM/trans/doc/2017/wp5/3_Europlatforms_Mr_ Torres_Benchmarking_3rd_10-11_July_17.pdf. Notteboom, Theo, Athanasios Pallis, and Jean-Paul Rodrigue. 2022. Port Economics, Management and Policy. New York: Routledge. https://porteconomicsmanagement.org/. Rodrigue, Jean-Paul. 2020. The Geography of Transport Systems. 5th ed. Routledge: New York. https://transportgeogra- phy.org/. Sheffi, Yossi. 2012. Logistics Clusters: Delivering Value and Driving Growth. Cambridge: MIT Press. https://mitpress.mit.edu/books/logistics-clusters. UNESCAP (United Nations Economic and Social Commission for Asia and the Pacific). 2018. “Development and Operation of Dry Ports of International Importance.” Committee on Transport, fifth session, item 3(c) of the provisional agenda: Major issues in transport. ESCAP/CTR/2018/L.1, Bangkok, Thailand, November 19–21, 2018. https://www.unescap.org/sites/default/files/4E_Development%20and%20operation%20of%20dry%20ports%20 of%20international%20importance.pdf. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 19 3. Logistics Clusters in the European Union 20 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Logistics and Multimodality in the European Union The European Union’s economy in brief (such as for vehicle dimensions) and standards for access to the market (licenses) and access to the From 1993 onward, goods have moved freely profession in the sector (diplomas and certificates, between European Union (EU) member states, and for example). This has contributed to seamless access since then the EU has gradually deepened its inter- to foreign markets and interoperability between the nal economic ties by also allowing free movement national transport systems, which all have their own of services, labor, and capital and by introducing development history. single currency (the Euro) in a number of states. The European economy is diverse with respect to Transport markets in the EU were liberalized in the production and income. Many refer to the “blue final decades of the 20th century. Until the 1990s, the banana,” which is a visualization of a string of regions national railways in most European member states with highest economic activity, located in the more functioned as monopolies responsible for infrastruc- densely populated and economically active central ture and operations. Reform separated these into parts of the EU, covering the Netherlands, Belgium, infrastructure management companies (generally still Germany, Austria, Switzerland, and northern Italy. government owned) and railway operating com- These economic centers also function as attraction panies, which then competed in an open common poles with good transport connections and well- market for railway operations. The railway freight developed logistics services. market attracted new players and the incumbent railway undertakings expanded their operations EU-level policy framework versus across national borders. The international inland those of individual member states waterway transport market on the largest and busiest European river arteries, the Rhine and Danube corri- Decision making over the development of infrastruc- dors, had already been open for more than a century. ture networks and the promotion of economic devel- Under pressure by the adoption of Europe’s single opment resides with EU’s member states. Transport market for services in 1993, the road transport and infrastructure in Europe is mainly under public domestic waterway transport markets also expanded, ownership, either at the national or lower levels, and while abandoning, for instance, quota systems in each EU member state follows its own investment international transport and regulations on prices. and development strategies. The promotion of the logistics sector in the EU The European Commission (EC)—acting on behalf of its member states and under democratic control of The EU considers freight transport and logistics as the European Parliament—has a coordinating role a driver of competitiveness for its member coun- and promotes connectivity between member states. tries and the union, and has published the Freight Its key instrument is cofunding of investment in the Transport Logistics Action Plan (COM(2007) 607) so-called Trans-European network for transport outlining short- to medium-term measures. The through the Connecting Europe Facility. In order to policy initiatives in the action plan must improve the promote the functioning of the common market, the efficiency and sustainability of freight transport. EC also has defined common technical standards COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 21 The list includes removing physical bottlenecks in Multimodality in the EU transport infrastructure; however, the plan does not specifically address the development of major nodal The network of intermodal services serves two prin- points in the transport and logistics system or any cipal types of trade: the intercontinental seaborne other spatial clustering of logistics services. trade in which standard maritime containers are the common load unit and the “continental” intraEuro- Most actions of this plan are soft measures, many pean trade, which uses semitrailers, swap bodies, or in the field of transport facilitation for simplifying continental containers as load units. These markets administrative requirements in particular. The so- are rather distinguished segments in practice, with called “e-freight” package must improve the use of not only different technicalities, but also different information and make freight flows “paper-free,” for players. Rail carriers operate in both segments, in example, via single windows for one stop-shopping about equal volumes, while inland barges provide for all administrative needs and single transport only hinterland services for maritime containers. documents for accompanying all carriage of goods, irrespective of mode. Further topics include the Multimodality is well developed within the core region deployment of intelligent transport systems for of the EU (“blue banana”) and in connection with better management of infrastructure and transport this core regions. A 2015 inventory learned that the operations, common regulation on weights and Germany–Italy corridor is by far the densest in rail- dimension of vehicles, and all sorts of interoperability borne combined transport. The biggest market exists standards that enhance common markets. between these two countries, but traffic with neigh- boring countries (Belgium, the Netherlands, Sweden, For improving quality of logistics services, the EU, in Czech Republic) is quite substantial as is domestic dialogue with stakeholders, has drawn up minimum traffic within Germany as well as traffic with Austria qualifications and training requirements for jobs in the and Switzerland, which are inside this corridor. sector and provides regulation for mutual recognition of certificates and diplomas between member states. An increasing number of rail services established in hinterland traffic of medium-sized seaports, with The action plan also seeks to promote “green throughputs roughly between 1 and 5 million twenty- transport corridors,” which are integrated routes foot equivalent units (TEUs), though often with combining short sea journeys, rail, road, and inland modest frequencies and market shares. To be viable, waterways, and supports knowledge sharing in multimodal services require substantial volumes, urban freight solutions. The plan proposes to support and as result, these services are sparsely provided in sector developments by monitoring on the basis of a peripheral regions. core set of performance indicators and, for example, benchmark performance of intermodal terminals and The maximum train length in most of EU (including use the information for promoting best practices. the most used corridors) is up to 750 meters, but can 22 MOBILITY AND TRANSPORT CONNECTIVITY SERIES be as low as 450 meters on some stretches. A 700- contracting out and customization provided opportu- meter train corresponds with a 100 TEU capacity. The nity for logistics service providers to engage in “value- EU does not allow double stacking. A change of these added services” as well, for example, packaging, parameters would involve many investments for safe labeling, or assembly. Logistics companies typically operation, to a great extent due to the intense use of used to have assets (such as warehouses and trans- the network, the mixed use with passenger trains, and port means) located in the vicinity of production sites most corridors passing through urbanized regions. or of consumer markets, for imports and distribution, but their changing role has changed preferences to The densest network of inland waterway terminals locations with high quality transport infrastructure is in Netherlands and Belgium, all connected to well-connected to a sourced and traded network, Rotterdam and Antwerp. Barge traffic between these often on the global scale, next to requirements such ports and terminals along the Rhine river and tribu- as available labor force and real estate prices. taries, mainly in Germany, is also important. Typical capacity of barges on the Middle Rhine and Rhine Another trend has been for logistics service providers Delta is between 200 and 350 TEUs. Container traffic to serve larger regions. So-called European, regional. also exists in connection with seaports in France (Le or national distribution centers are set up for multina- Havre, Marseille) and Germany (Hamburg, Bremen), tional companies, providing access to segments of the though in smaller volumes because of waterway European market. These centers distribute finished infrastructure constraints (from Marseille), and goods to retail outlets and their distribution points. because of lower transport demand. The abovementioned trends favor integration of Multimodality and logistics clusters logistics service provision around nodes with the mul- in the European Union timodal transport network, and therefore are market driven drivers toward logistics clustering. The clusters Logistics services follow demand, and therefore improve connectivity in all respects: transport effi- are more present in the more prosperous regions ciency, flexibility, reliability, and sustainability. These than in peripheral regions. The sector of logistics benefits derive from shifting modes (from road to services providers has expanded significantly in the multimodal transport), from benefits in the “first-mile” past three decades due to increases of global and or “last-mile,” and benefits of available third services, intraEuropean trade, of contracting out, and a shift such as warehouse space and local transport services to more customized production cycles. The trends of for exchanging or combining of cargoes. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 23 The Netherlands: Logistics Corridors and Hotspots The Netherlands has a long history in the transport In addition, the Netherlands has a network of 39 and logistics market in Europe, playing an important inland terminals (KIM 2018) outside of the seaports, role in international trade and in transit. The Port of which includes 31 barge terminal terminals, 5 rail Rotterdam is Europe’s largest seaport complex in terminals, and 3 trimodal (rail-barge-road) termi- bulk as well as in container transport, while Schiphol nals, which together generated an estimated total Airport is one of Europe’s largest hubs in air cargo. throughput of 8.2 million TEUs in 2018. The barge The Netherlands has consistently ranked in the top and trimodal terminal serve hinterland traffic, all 10 of the World Bank’s Logistics Performance Index in connection to Rotterdam and/or Antwerp. The (LPI), even though the country is small (approximately distances covered by these barge services are short, 42,000 square kilometers), densely populated (17.2 with most terminals located within 150 kilometers of million inhabitants) and its gross domestic product each other and some located less than 40 kilometers (GDP) was €774 billion in 2018. from the seaport. Multimodal transport in the Netherlands Most barge terminals are privately owned, developed by various types of service providers in the transport As Europe’s busiest seaport, with a throughput and logistics sector, typically originating from local of 14.5 million TEUs in 2018 divided over several initiatives of improving their logistics services in sea- terminals, the Port of Rotterdam lies in the center borne transport. A modal shift to barge, for example, of the Dutch multimodal transport network. The avoids road operations in the congested region and Maasvlakte II, the port’s most recent major extension, keeping a small container stock makes the operator added capacity for realizing its growth potential and more responsive to the needs of its client base. For a is accessible to the largest container vessels. The barge service to be of value it should run frequently; port serves as a gateway to the European hinterland the rule of thumb is at least twice per week in its as well as a transshipment port, connecting inter- initial phase. This implies that steady volumes of continental and feeder services by sea. Other Dutch container movements are needed for financial viabil- seaports (Amsterdam and Zeeland Seaports) also ity, which often is solved by seeking cooperative and/ have significant, though more regionally focused, or joint ventures. container traffic. All Dutch seaports are located within the delta of the Rhine, Europe’s busiest river. Rail represents the only multimodal continental traffic in the Netherlands and its most important The Belgian seaport of Antwerp, Europe’s second gateway is Rail Service Center (RSC) Rotterdam, largest seaport with 11 million TEUs throughput in which also handles maritime containers. Continental 2018, is part of the same river delta and is situated load units also use nearby terminals in Belgium (in less than 100 kilometers away from Rotterdam. The Antwerp and Genk) and Germany (in Duisburg and connection between the Port of Antwerp and the Cologne) and in recent years some initiatives have Netherlands serves as an important part of the Dutch also developed rail terminals in the Netherlands; hinterland transport operations. however, the inland rail terminals for continental cargo differ from container terminals. 24 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Road transport is dominant in continental traffic. Zeebrugge, which would also increase the promi- On short distances its share reaches nearly 100 nence of the logistics sector in the region. Arguments percent. For long distance, traffic share depends against considering the region as single logistics on the corridor. For example, Italy is well served by cluster include the lack of coherence within this frequent multimodal services between a range of logistics region. For example, all parts of the region terminals, while on other connections road transport have strong relations with the seaports of Rotterdam dominates, even though multimodal transport, if and Antwerp, but the internal relations, such as those provided, could have lower costs. Road transport has between most eastern subregion and central regions, been better capable of absorbing increased demand, are not well established. despite road congestion and a desirable shift to rail because of its social benefits. This trend has long Two Dutch regions with a high presence of the logis- been expected to change, but progress is slow. New tics sector are located around Tilburg in the south constraints such as an increasing shortage of drivers and around Venlo in the southeast. These regions and more recognition of the environmental com- have large zones for logistics service providers and ponent in decision making have applied additional are centered around inland transshipment terminals pressures for the shift to rail in recent years. with frequent connecting services to the seaports. Logistics clusters in the Netherlands Next to these, many other Dutch regions profile themselves as logistics regions. The term “logistics Stakeholders in the logistics sector apply the term hotspot” is widely used by regions and their business “mainports” to the Port of Rotterdam and Schiphol communities and functions as a kind of engine in Airport, because of their size and significance as promoting their logistics profile. Each year, logistics gateways to the Netherlands and beyond. These sector representatives vote to informally rank these mainports, as facilitators of huge volumes of interna- hotspots based on judgments of many criteria, which tional transport, also serve as landlords of the largest include multimodal accessibility, available work logistics zones in the country, for all types of support- force, available land and real estate, cooperativeness ing business and logistics service providers. of local government in facilitating settlement, and more. However, the term “logistics hotspot” does not With the country’s aspirations in international trade, describe an official categorization of logistics regions logistics services are also well presented in the and does not provide any special legal status. hinterland of these mainports. Sheffi (2012) suggests the Netherlands as a whole could be considered as In 2019, the number of participating hotspots totaled a single logistics cluster. The definition for logistics 28, which is a high number for the small size of the cluster can apply to a region if a more-than-average country, indicating the widespread growth of logistics share of the working population is active in logistics, services. and this regional application likely corresponds to the European and/or global context. The logistics At the same time, the high number of hotspots indi- area in the Netherlands could easily extend eastward cates clustering of logistics services is a mainstream to include Duisburg in Germany and southward development and that the logistics sector and public to include the Belgian seaports of Antwerp and stakeholders recognize benefits of clustering. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 25 Several of the hotspots focus on specific user maintaining a good quality network, expanding segments. The region just north of Rotterdam, for where needed. An update of the MIRT (multiannual example, is profiled as a center for agrologistics, due program for infrastructure, space, and transport), to the high number of specialized logistics companies which prioritizes infrastructure spending, occurs catering to the long-established agricultural trade annually. The MIRT is not a central planning docu- and production in this region. Such bundling of ment, but results from negotiation between national interests from agricultural and logistics sectors is and regional governments, and therefore balances also done in Venlo Greenport, and a similar way of between national and regional interests. bundling is, for example, with chemical industries in the “Chemelot Park” in southeast Netherlands, often The policy prioritizes those infrastructure investments in connection with major chemical sector activities in that contribute most to the competitiveness of Dutch the Ports of Antwerp, Rotterdam, and Zeeland. economy. In broadlines this means giving top priority to solving accessibility bottlenecks in the Port of A contrasting trend is also observed with the emer- Rotterdam and Schiphol Airport mainports. Further gence of an increasing number of very large (XXL) priority areas are only briefly identified on headlines, warehouses, standalone logistics buildings preferably through which a level of flexibility in planning is main- located in spots with excellent access to highways. tained to follow market developments and interests. Many of these function as distribution centers for The latest MIRT, for example, only identifies the Dutch retailers, often for home deliveries related to online “brainport” (important technology cluster around platforms. They fully depend on road transport for Eindhoven) and “greenports,” which combine agricul- in- and outbound traffic. This trend displays a large tural and logistics development, for example in Venlo. segment of logistics service provision to which bene- fits of potential synergies of logistics clusters and of This flexibility and market responsiveness is effective multimodal transport do not apply. A recent publi- in the Dutch context, with a mature infrastruc- cation by an advisory commission on spatial quality ture network with increasingly rare restructuring expressed concerns about the increasing amount investments. The latest profound investments have of these XXL warehouses, because of their harmful been the completion of the railway link for freight impact to the quality of the Dutch landscape. between Rotterdam and the German border (namely, Betuwelijn), which opened in 2007, and Rotterdam The changing role of the Dutch national Port’s land reclamation project (Maasvlakte II), which government in transport and logistics plans became available in 2013. The Dutch government subscribes to ambitions of This political approach to logistics node development increasing the country’s attractiveness for settlement represents a partial shift from central planning, of industries and considers its excellent transport common until the 1990s, to laying responsibilities as infrastructure and high quality transport and logistics close as possible to the market, thus creating room sector important assets. for initiatives from regions and the private sector. This change has taken place gradually over the past As owner of the main infrastructure in the coun- 25 years in the Netherlands, in all economic sectors, try, the Dutch government takes responsibility of including in spatial and infrastructure planning. 26 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The plan for developing a hierarchical network of However, a great awareness exists that these matters inland nodes and transshipment terminals provides should not be handled within port territories only an example of central planning. The network con- but also require efforts outside of the port’s territory, sisted of Rotterdam and Schiphol Airport mainports, and should involve all stakeholders in international supported by five secondary nodes with above-re- transport and trade. gional significance and tertiary nodes with regional significance. The intention was to connect these five The policy-making objectives include bundling of nodes with the Port of Rotterdam by rail services, container flows and the use of barge and railway for expecting that barge services would not be compet- efficient transport and transshipment operations. The itive at this distance because of long lead times. In Dutch government has limited instruments for this practice, however, this hierarchy never manifested: policy, however, particularly since spatial planning three of the five secondary nodes had difficulties in is decentralized and with the national infrastructure presenting viable business cases, while the other two network already— mostly—in place. Where needed, nodes were already active before the policies were in national infrastructure for all transport modes should place. Meanwhile, in several other nodes not included be upgraded to accommodate traffic and promote in the plan, logistics business and multimodal termi- efficient use. One instrument in the ambition of nals emerged and appeared successful. modal shift has been national cofunding of (relatively small-scale) infrastructure improvements, provided The Port of Rotterdam as a policy-making pillar that national significance and modal shift potential could be demonstrated. Because of its magnitude in the economy and in transport, the Port of Rotterdam holds a central place The role of the Port of Rotterdam in in political decision making. The port is important developing logistics nodes to the Dutch economy of trading and houses large industrial complexes, for example, in (petro)chemi- The Port of Rotterdam’s main interest in its hinterland cals. Its gateway function to Europe’s overland trans- lies in securing its position in supply chains where port network further creates multiple opportunities the port can add value. The port represents one of for adding value. many potential gateways to the European continent and operates in a keenly competitive environment. Of great importance is understanding the port is To be attractive, the port must have high quality simply a node in supply chains, with a critical network connections with hinterland regions, meaning con- of good connections (in the hinterland and oversea). nections should comply with the many dimensions of Therefore, accommodating those services for which quality, for example, be reliable, secure, efficient, and demand is manifested is only one of the port’s tasks; frequent. This is quite challenging, given the high vol- this “landlord” role should always be viewed in the ume of containers and other cargo passing through wider perspective of gaining and maintaining a the port and the vastness of the hinterland, and can position in supply chains and trade. only be realized by using the scale advantages of rail and barge transport. Important for maintaining this position, capacity should be upheld and accessibility maintained. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 27 Within the port’s territory actions, for example, a terminal located 85 kilometers away. The investment rationalization of the railway network changes a capil- and intervention process involved financial and lary railway system connecting to many short-train other interests, which could not be streamlined. clients into a system with fewer railway terminals for The terminal has been in operation since 2010 and shuttles of maximum train length. For containers and the Port of Rotterdam now acts as landlord to the other load units, RSC-Rotterdam was established, terminal operating company. Beer brewer Heineken later followed by terminals in the expansion areas of was a major driver behind the development of the Maasvlakte. terminal, which helped to attract other major clients. A similar intervention involved development of In addition, barge transport has gone through a Container Transferium in Alblasserdam (opened in continuous process of rationalization. Sea vessels 2015), located a short distance from the port, which and barges often use the same quays and the also risked becoming deadlocked due to financial principal challenge has been to find slots for inland uncertainties. barges, with typical call sizes of between 1 and 50 containers, in between the handling of ocean ves- All container terminal operators at the Port of sels, which could have call sizes of several thousands Rotterdam are privately owned concession holders. of containers. The largest is ECT, part of the global container ter- minal operator Hutchison Ports, which has up to a For all transport modes, the port has cooperated by 100 percent share in inland terminals in Netherlands, developing the port community system for informa- Germany, and Belgium, and offers connecting rail tion exchange and more recently, for example, in the and barge services. ECT’s network of inland terminals Next Logiq initiative, where barge operators coor- improves its attractiveness by reducing distance dinate within the transport chain to arrive at more to its users. Part of this strategy is the provision of efficient and larger call sizes. European Gateway Services, including reposition- ing of containers between the seaport and inland The port also promotes modal shift and bundling of terminal without additional customs handling. The cargoes outside of its territory. As part of the Dutch objective of this strategy is similar to the port’s overall Logistics Cluster, the port promotes a high level of strategy of securing its hinterland. awareness of the potential benefits of cooperation (and risks of fragmentation) and, as a major stake- The focus of the Port of Rotterdam—as well as holder, provides technical support to all types of ECT—is placed on developing nodes with sufficient private and public initiatives. scale for multimodal transport. To them, this mul- timodal dimension is key and developing of these The port has no ambitions to take a financial position nodes into logistics zones will have positive impact in hinterland services or nodes and has done so on the throughput of the terminals. The port and the only by exception and on a case-by-case basis. For seaport terminals, however, do not actively engage in example, the port invested in Alpherium, a barge further developing these inland nodes. 28 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Logistics nodes as part of the Dutch interchangeability between transport modes, and “top corridors” approach therefore the resilience of the corridor, and is expected to lead to modal shift with improved use of The current policy instrument for bundling of hinter- available capacity throughout the transport network. land cargo is known as the “top corridor” approach. Two corridors, east and southeast, are the busiest The stakeholders involved in the program emphasize freight transport axes and bring the greatest value to the importance of reinforcing the role nodes in the the Dutch economy. The corridors link the Rotterdam Dutch landscape of logistics services, which has seaport with its German hinterland and offer substan- become increasingly fragmented in recent decades. tial growth potential toward other European regions. Stakeholders accept the widespread emergence of solitary services as given; however, they also call for Program organizations have been set up for both more active steering toward clustering of logistics corridors. The programs must enhance effectiveness services to improve spatial quality and landscape and efficiency in decision making and funding of proj- value, use of infrastructure, agglomeration effects, ects, which together must ensure high-quality corri- and sustainability. They state this will require steering dors and promote flexible interchangeability between on large-scale infrastructure development and logis- water, rail, and road transport modes. As defined in tics zones in the vicinity of multimodal nodes and the EU’s action plan, the pipeline of projects must selectivity in the allocation of space for logistics and be “adaptive and dynamic,” meaning they must be other business activities in logistics zones (Ministry of responsive to market developments, opportunities, Infrastructure and Water Management 2019). and threats. Logistics as part of the Dutch “top sector” approach The program organizations manage and support implementation. Lean and with representation from Dutch policies have identified the top sectors, and all relevant public layers as well as from the private logistics is among them. Top sectors are considered sector, all organizations have agreed to permanent vital for the national long-term growth aspirations. long-term engagement and taking ownership of Top sectors receive support from the national govern- challenges, an idea which should, in time, increase ment for initiatives designed to improve capabilities of private representation. Working on the basis of the logistics sector, for example by promoting, engag- defined objectives and under supervision of a pro- ing, and cofunding innovative actions and education. gram council, each organization has set up systems for project selection and advancement as well as The Dutch approach is cooperation between the measuring progress on the basis of key performance private sector, government layers, and often tech- indicators (KPIs). nology and educational institutions, and in this context uses the term “logistics cluster.” In the Dutch The first (and current) action plan has the objective context, the logistics cluster comprises a group of of strengthening a selection of six “above average” entities engaged in promoting logistics capabilities logistics nodes in these corridors and improve in the country, including all types of stakeholders. their connectivity and multimodality. This focus However, a logistics cluster does not necessarily have on a limited number of nodes must improve the spatial boundaries. A key element is the cooperation COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 29 between the manifold of private, public, and semi- hotspot rankings, the logistics cluster is named public entities for achieving common objectives; Venlo-Venray, including Venray, a city 20 kilometers because of this, initiatives typically include a regional north of Venlo. In current marketing, an even wider dimension. territory, for example, including Boxmeer, 40 kilome- ters to the north, and Born’s container terminal, 50 The Venlo logistics cluster kilometers south of Venlo, are included in the cluster. The work force commuting to the logistics companies The Venlo region generates the highest logistics also commutes from a wider region around Venlo, activities in the Netherlands, apart from the seaports including many from a 30 kilometer radius stretching and Schiphol Airport. In the center of this activity across the German border. Hence, the size and shape is TCT—the trimodal terminal owned by Hutchison of the cluster is dynamic and continues to adapt to Ports. Hutchison established its rail terminal in the growth potential. 1980s and opened a nearby barge terminal in 2010, which together formed TCT. The trade ports tenants are the main users of the TCT multimodal terminal and benefit from the vicinity Located near the German border, Venlo is one-hour and high frequency of railway services, with four driving distance from the densely populated and trains per day running to and from Rotterdam Port. economically powerful German city of Ruhrgebiet. Currently, the cluster also includes nearby terminal Because of this location, Venlo has emerged over capacity, for container cargo connecting to the the past several decades as an important region seaport and for continental cargoes connecting to for transport and logistics, formerly exploiting its other regions of Europe. From a business viewpoint, position as a border town and more recently lever- development of terminal capacity and multimodal aging its logistics capabilities and proximity to the connections still continues and has become less risky, Rotterdam and Antwerp seaports in the west and the because of the potential from the wider client base European continent on its east. evolving around the terminals. The Municipality of Venlo developed the 240-hectare Advantages of the Venlo logistics cluster Venlo Trade Port around the TCT terminal, with an abundance of available land in high demand from the The Venlo logistics cluster, comprising several sub- logistics sector because of Venlo’s excellent location. sequently developed logistics zones, accommodates The logistics zone has continued to expand, with different roles in transport and supply chains, includ- Trade Port East (22 hectares), Trade Port West (207 ing the following: hectares) and Trade Port North (240 hectares). • Links transit and functions as a point of (de)con- These subsequent expansions should not be solidation for import and export cargo flows over regarded as phases in a long-foreseen development the seaports of Rotterdam and Antwerp, primarily or master plan, even with an awareness of the devel- in relation to neighboring Nordrhein-Westfalen opment potential. In addition, how far the “logistics (NRW), the most populous and prosperous cluster” stretches beyond these defined logistics German state. One might say that, historically, zones has yet to be determined. In the logistics going back several decades, Venlo has functioned 30 MOBILITY AND TRANSPORT CONNECTIVITY SERIES as the main success for the regional logistics sec- low. Several logistics service providers own or tor, well before the establishment of the European hire warehouse capacity at the terminal premises single market. Increasingly, Venlo has also to handle part of their traffic. However, terminal assumed that role for regions beyond the NRW. vicinity decreases in importance for longer-term storage. • Houses several European distribution centers for multinational companies. For inbound traffic, • Availability of a good labor force. Staff is success- these centers benefit from seamless and easy fully recruited from a 30-kilometer radius around access from the seaports. Venlo, though part of the labor force is recruited in Eastern Europe as well. The perception that • Facilitates substantial cargo flows from the region, work force provides manual labor for handling mainly related to agricultural sector but also to, packages is misleading. In fact, the large volume for example, electronics. of logistics services implies significant demand for middle and higher management, information, • Serves as an important connecting point. Next to communication, and technology (ICT) and develop- the initial links with the seaport, new rail terminals ment professionals, and support staff as well. have developed, providing connections to other regions of Europe. Venlo developed itself from • Logistics services. The Venlo cluster provides a full “satellite terminal” into a “multimodal hub.” range of logistics services, an important feature for attracting tenant logistics services providers Venlo’s factors of success are as follows: and cargo owners. Many companies do not have the means to provide full service; instead of • Central location: Approximately 30 million owning a broad range of services, they prefer the inhabitants live within 100 kilometers of Venlo, increased flexibility and responsiveness to fluctu- and a vast share of the European market can be ating demand of subcontracting these services, reached, via truck travel, within a single day. often renting contractors space in the company warehouse. For large or risky ventures, service • Infrastructure, in particular the availability of providers could seek cooperation, even with multimodal connections. Venlo has the TCT and companies with similar service profiles. Further, Cabooter terminals, and within a short distance a certain specific supporting services are only viable range of combined transport terminals for multi- with a large group of customers, which from the modal transport to Italy, East Europe, and Central client perspective means these services are more Europe. likely provided in logistics clusters. • Terminal location. The vicinity of the terminals • Long-term stability. Venlo has been able to assure, within Venlo to cross-dock operations and short- from a long-term perspective, the long-term term warehousing is particularly important. These advantages, including stability and reliability of its operations involve frequent traffic and therefore logistics cluster. While essential to the success of hold significant cost savings potential if distance any logistics cluster, this factor can be the most between terminal and cross-dock can be kept challenging. In addition, the timely engagement COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 31 of users in the early phases of development and Central Asia for agricultural exports, provides a recent design is critical to overall success of a logistics example of successful join business development. zone. For example, when designing roads to facilitate the most efficient truck movements in Maintaining a well-qualified and motivated labor the logistics zone, inputs from future users should force is arguably the most important factor in cre- be considered. This user engagement would help ating stability and long-term perspective—and is avoid the problems commonly seen with road an action in the continuous progress important for design in other communal zones, done at munic- maintaining the attractiveness to logistics service ipality level, which often feature roundabouts providers. In Venlo, local education institutions too narrow for the intense truck traffic flowing are closely involved with the cluster, which actively through logistics clusters. promotes jobs and possibilities for career develop- ment in schools, contributes to developing material The long-term perspective as key challenge for training, liaises with teaching staff, provides positions for internship, and cooperates in closing This long-term perspective is the key challenge of all gaps between education and jobs. Much attention logistics clusters; its absence is also a failure factor. is also given to developing skills for client relations Fundamental to the challenge is the trust market (such as multilingual skills) and for product and players place in the logistics cluster to provide a process improvements. Human resources offices for reliable and stable environment. logistics cluster employers also have the responsi- bility of stimulating and maintaining interest in the Tenants must be confident they will have room for logistics-related jobs among potential employees. expansion when needed. This requires, for example, For example, logistics service provider Cabooter spaces for additional plots or additional building acquired a staffing organization and transformed its space on existing plots, vacant warehouse space—for role from mere labor acquisition and selection into temporary use while expanding original warehouse— a human resource organization, which also provides along with transport infrastructure free of congestion career education and development. This type of and/or expandable. The long-term perspective of career development service can involve third-party stable, expandable logistics service provision also companies related to the logistics sector and holds provides confidence to potential clients and investors. clusterwide significance. Joint business development further contributes to sta- In the Netherlands, the number of warehouses bility, since engagement in developing new business and distribution centers has been expanding, with improves sustainability. In Venlo, the logistics cluster good availability of land and infrastructure, and with liaises with the local agrobusiness cluster, which coop- service providers benefiting from the availability erates in product development and innovation as well of qualified labor force. However, such investment as in market development. Contracts signed with the could be risky and short-lived, without also actively Port Baku in Azerbaijan, which allow Venlo Greenport preserving the labor force and connection with the (part of the trade port) to become a gateway to local community. 32 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The local government taking Formally, the local government initiates and leads ownership of logistics zones development of the logistics zone. In practice, all developments should result from intense dialogue The local level government (or governments, where between local government, the business community, municipal borders are crossed) own most of the land and social interest groups at all steps of decision in Venlo Trade Port. The governments set up, own, making, with local governments coordinating and and steer management organizations of the logistics formalizing decisions. As defined by the national law zones. These organizations lease out plots and serves (in which the EU legal framework is implemented), as landlord; in turn, the leasing contracts provide the formal procedure steps include demand analysis certainty to tenants, including for the longer term. and cost/benefit analysis, market and public consul- tation, risks assessments, and environmental impact In a few exceptions, land ownership lies with tenants, assessments—if deemed necessary after screening most due to historic ownership before the logistics by the competent authority. These and related per- zones were established. Because ownership in Dutch mitting procedures provide ample room for appeal law does not allow the owner to change how the where needed, and the steps should only proceed land is used without consent, tenants are not con- with convincing political support and expectation of cerned with either leasing or owning the plot of land. successful implementation. For example, real estate Whether one or the other would be more attractive developer Prologis was engaged to conduct the depends more on financial capacity and structure market assessment for the Venlo Trade Port, before rather than on business needs. Consequently, land launch of official procedures. ownership has no demonstrated significant impact on the behavior and performance of the tenant. During operations, the local government could also play an active role in the marketing of the logistics The land ownership of the multimodal transshipment cluster, which can help establish trade deals and terminals remains with the respective governmental related logistics demands as well as transport connec- bodies. This can be the municipality, Prorail (the tions. For many potential business partners govern- national infrastructure management entity for rail), or ment-to-government (G2G) deals are more common Rijkswaterstaat (the national owner and manager of that business-to-business (B2B) deals, such as seen in waterway infrastructure). The terminals are operated China and other Asian countries. In these cases, ideally by private sector entities (Cabooter and Hutchinson) national representatives should participate in negotia- through long-term lease contracts. The terminal tions in order to maintain equal decision levels across operator provides the investment in suprastructure both parties. This would make the Venlo logistics clus- (cranes and other equipment, pavements, lightning ter deal-making process dependent on formal govern- protection, and security systems, among others). ment representation. For example, the Dutch national government took a role in setting up a railway link with Except for structures used for public functions (such Xian in China. However, Venlo Trade Port is not as well as zone management and security), all real estate equipped for this as are other ports, such as Duisport erected on the land is privately owned. Ownership or Port of Rotterdam. The Port of Rotterdam and Venlo of warehouses lies with logistics service providers do cooperate in international marketing, displaying for their own use or leasing to third parties or real the advantages of cooperation between the port and estate developers. the logistics cluster in international supply chains. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 33 Germany: Freight Villages and Hinterland Nodes Germany is the largest economy in Europe, with a traffic. Germany’s central position is demonstrated population of 83 million and a 357,000 square kilo- by the fact that a high share of Italy’s import and meter surface area. In 2018, the country had a GDP export traffic is routed over the four abovementioned of 3,344 billion, with a strong manufacturing sector seaports, which are connected to northern Italian and high volumes of import and export cargoes. As terminals by frequent rail services. an important trading country, Germany’s North Sea ports in Hamburg and Bremerhaven are important Traditionally, state-owned German Railways (DB) has gateways, next to the seaports of Rotterdam and been an important player in the development of com- Antwerp. Together, these ports are the four busiest bined transport services and of terminal development. container terminals of Europe. The country also has Until the 1990s DB, as a near monopoly, had the important transit traffic between all these seaports strongest voice and created a terminal network, which and its neighboring countries to the east and south, compromised the interests of market demand, polit- and as exporter and importer has good connec- ical objectives of connecting all regions, and its own tions with most of EU member states. In addition, objective to optimize railway operations. Key users Germany has established a strong logistics sector were either DB subsidiaries (such as Transfracht), and is home base of many multinationals in the operators partly owned by DB (such as Intercontainer sector, including, DHL and Kühne + Nagel, and con- for international container traffic, co-owned by sistently ranks at or near the top of the World Bank’s European state-owned railway companies; and LPI benchmarking standard. UIRR-company Kombiverkehr, whose ownership was shared with logistics companies.) On the basis of reci- Multimodal transport in Germany procity, other operators in international services were also admitted through a code-sharing cooperation. Germany, has built an extensive network of multi- modal transport services and nodes for domestic as DB’s monopolistic position turned about 20 years well as international transport, including connections ago, first after an EU-intervention ruling the division to seaports as well as to continental transport. The of the market for multimodal services violated more than 100 transshipment terminals for unitized free-market principles, and later after opening the cargoes outside of seaports in Germany, listed in the market for railway operations. Early entrants included AGORA-terminal database, indicate the network’s logistics service providers, maritime operators, and broad reach. This database was developed with cargo owners who took stake in multimodal transport EU funding in 2012; up-to-date numbers are not services and multimodal terminals. The current situ- available. ation, a diverse landscape of railway operators and multimodal transport operators, shows incumbent The German network of railway-based multimodal DB still controls the majority of both markets. transport is dense, with good geographical coverage across Germany. The rail network serves domestic, DB also played a significant role in the early devel- import, export and transit traffic, with the railway opment of the GVZ (Güterverkehrszentrum, or freight terminal network including numerous container ter- village) network, where clusters of logistics services minals for hinterland cargoes and terminals for swap center around transshipment terminals. For the bodies and semitrailer transshipment for continental development of GVZ, the lower government levels 34 MOBILITY AND TRANSPORT CONNECTIVITY SERIES handled the decision making, in cooperation with DB The federal government of Germany recognizes the or other terminal operators. importance of logistics. The federal government acts on issues holding national or international In comparison, container traffic by barge represents significance, to ensure interregional connectivity by a small market segment, however important in providing good quality infrastructure. The govern- absolute terms, and increasingly important in the ment’s role also includes safeguarding of environ- overall market. A string of container barge terminals mental concerns, and therefore encourages the use is located along the river Rhine and its tributaries, of railways and inland waterways over roads. The connected by frequent services to Rotterdam and instruments for this modal shift policy include federal Antwerp. Planned services to connect the German financial support for terminal development, next to seaport—the waterway links to the Rhine corridor— prioritizing railway and inland waterway infrastruc- with Germany’s economic centers, do not allow for ture projects. These investments will continue on the large barges. Few large terminal operators, such basis of viable socioeconomic business cases demon- as Contargo, operate both multiple terminals and strating national significance. the connecting barge services. The ownership of barge terminals has undergone many changes, for Lower-level government, such as municipalities, example, the maritime sector (ocean lines as well handle logistics services, which are therefore not as seaport terminal operators) has seen a reduction under federal government’s span of influence. For in ownership of barge terminals over the past few example, the government’s commitment to DB’s decades. Today, several of the inland waterway trans- national master plan for GVZs never moved beyond port (IWT) terminals are included in the GVZ network the approval of co-investment in the transshipment and have embraced the characteristic concept of facilities, nor did it engage in land use schemes of clustering logistics services around them. surrounding areas. Logistics clusters and logistics policies in Germany Increasingly, the German federal government pro- motes the competitiveness of the logistics sector, With its high presence of logistics service providers, which is regarded as a key asset for sustaining Germany has developed a high-quality service net- Germany’s strong position in the global economy. work, leveraging the characteristics of its economy The policy package consists of soft measures such as as manufacturing and trading country, the presence supporting pilot innovation and research as well as of densely populated regions with high purchasing improving the sector education system. The Freight power, and its central position in the European Transport and Logistics Masterplan (published in market. As in the Netherlands, many regions of the 2008) includes a measure to “establish a freight country are classified as logistics clusters under the transport and logistics network,” which calls not for a definition of “above average presence of the logistics physical network, but for closer coordination between sector.” For example, from north to south: the seaport the federal government and industry and trade regions of Hamburg, Bremen, and Wilhelmshaven; associations in order to become more responsive to the Ruhrgebiet, the wider region around Duisburg; developments. and the Frankfurt/Manheim area, with Germany’s main airport and the traffic-intense chemical cluster. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 35 As Germany’s largest, most populous and most In the longer term, NRW should safeguard the vital prosperous state, Nordrhein-Westfalen (NRW) has spaces needed to facilitate logistics development, a strong logistics profile with a key position for mainly by securing land near ports, as the available Duisburg, Europe’s largest inland transport hub. The land will continue to shrink in this urbanized region. logistics sector has been of great importance to NRW In addition, locations near waterways often also have in its transformation from a region dependent on high potential value for residential development. industries such as steel and coal mining into a ser- Once urban development approaches these resi- vice-oriented region. The logistics sector has become dential sites, environmental legislation will block the one of the region’s largest employers, making the development and expansion of nearby transshipment region more attractive to new types of industries. facilities and settlement of related logistics services. The government of the German state of NRW For promoting the use of multimodal transport and emphasizes its strong points—including a central safeguarding the social interests of optimal use of location in Europe, a dense multimodal transport infrastructure, NRW will need to actively moderate infrastructure network with high quality ports, a for port land to be used for port functions, for ports well-equipped labor force, and a robust research with clear long-term expansion potential to provide and education system—and recognizes the need development plans, and for municipalities to develop for reinforcing these, for example, by creating more only those dry locations complementary to port space for settlement of logistics services, or more logistics systems. transshipment facilities and infrastructure adapted to higher demands.1 NRW will also engage in marketing and business development, via worldwide promotion and, for NRW calls for cooperation between all stakeholders. example, by engaging in a dialogue with seaports Investors have learned most areas in the state have and inland nodes about shifting seaport functions to potential space for logistics; however, these need to hinterland locations, and collaborating with its public be readily available, and the NRW government can bodies, such as NRW.INVEST as well as with interna- help coordinate easy access to potential development tional counterparts in Eastern Europe for bundling opportunities, for example by: traffic flows and promoting multimodality. • Maintaining an updated information system for The German GVZ concept this purpose, which can help investors; What is a GVZ? • Cooperating with “NRW.INVEST,” its public body for promoting investment, in monitoring the The German concept of the GVZ, or freight village development of suitable logistics space and (FV) was introduced in 1985 with the Bremen GVZ. supporting development in close cooperation with As of 2018, the network consists of approximately 34 local-level communities. GVZ. Some of these GVZ have been greenfield devel- opments, but many have been developed around • Encouraging dialogue between the public sector existing transshipment facilities or industrial terrains. and private-sector actors in logistics who have In several instances, establishing a GVZ allowed expressed interested in developing locations. local-level authorities to fundamentally restructure 1 https://www.vm.nrw.de/ 36 MOBILITY AND TRANSPORT CONNECTIVITY SERIES local goods traffic, by relocating often outdated rail warehousing), supplementary transport service cargo facilities from inner city environments to outer providers (vehicle services, consultancy services) and areas, thus avoiding related heavy goods vehicle industrial and trading companies. DGG states GVZ (HGV) traffic. philosophy is based on “spatial proximity promotes cooperation and division of labor of the enterprises German law (BMVBW A 14/26.80.00-01, 2001, art II) on site.” The benefits produced by GVZs include defines a GVZ as an industrial zone for companies to increased truck capacity utilization in local transport settle independently. Companies must be transport movements (such as City-Logistics). The DGG also and logistics service providers, supporting logistics states the GVZ “should be located near urban agglom- service provision, or manufacturing or trading com- erations and have a quick access to regional and panies with high logistics intensity. The GVZs must be long-distance traffic.” connected to at least two different transport modes and include a terminal for load unit transshipment, GVZs in historic perspective which provides indiscriminatory access to its potential users. The law allows the terminal to be either inside The first GVZ, GVZ Bremen, was established in 1985 or in the immediate vicinity of the GVZ, and the terrain and remained the only GVZ until 1995. The Bremen could be patriated. The law advises the GVZ manage- GVZ was developed as a brownfield project and soon ment entities should also promote the exploitation became highly successful, using 65 percent of the of synergies within the GVZs. The definition article available land (in 1995), generating a high number emphasizes GVZs are only considered functional if of jobs, and increasing social benefits. Located near integrated in Germany’s GVZ network via connecting the Bremen/Bremerhaven seaport allows a large transport infrastructure, transport and logistics share of its tenants to operate “around containers,” services, and information technology, for which they mainly in container packing. Increased demand from must cooperate with GVZs in other regions. the automotive cluster (namely, Daimler) around Stuttgart, approximately 650 kilometers to the south, The GVZ network must accommodate the increasing was sufficient enough to establish frequent and high demand for transport and logistics services and quality rail services. The GVZ also helped relieve promote environmental benefits of freight traffic pressure on Bremen’s urban road infrastructure. bundling. The locations of GVZ swill be mentioned in national transport plans and planning could be The Bremen GVZ served as model in the early years coordinated on the subnational state level, while of GVZ development, and its cost-benefit ratio pro- lower public levels can initiate and develop the GVZs. vided great optimism and fueled expectations in In order to obtain public cofunding, the demand for many regions of the country. The first master plan logistics services and the multimodal potential must published by DB called for a network of 40 GVZs, be demonstrated, along with proof of compliance which would provide extensive geographical cover- with common planning frameworks. National cofund- age. However, the plan never received full political ing concerns only the transshipment facility. support because of the elevated investment costs and, with DB as promoter, investments in railway The German GVZ Association (DGG, a membership infrastructure abounded. Further criticism cited the organization) describes GVZs as logistics centers, network configuration would be driven by optimizing linking and bringing together different transport railway operations, and therefore DB, in a process modes (road, rail), transport companies (forwarders, of transforming into a for-profit organization, would COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 37 shift its focus from geographical coverage to support- In general, most stakeholders believe GVZ design ing large GVZs only. requirements should not be stringent, instead striv- ing for a case-by-case balance between functionality Meanwhile, other regions had become increasingly and practical development constraints. Many also feel interested in the concept and the number of GVZ the legal obligation of providing multimodal connec- climbed, though without a commonly agreed GVZ tions should be loosened. network strategy. The federal government agreed to cofund GVZs only if the impact demonstrated a Different roles of GVZs in the logistics network national significance. Additionally, the government cofunding covered development of the transship- This report separates GVZs by their profiles, for ment facility only. example belonging to: Diversity in physical characteristics • Industrial GVZs, mainly for automotive produc- tions, including, for example, those in Wolfsburg, GVZs differ greatly in design as well as in use, with no Ingolstadt, Kassel, and Leipzig. These GVZ are one set of blueprints for GVZ layouts. In the earliest centered around the decentralized production years, planners set the minimum size of GVZs at 100 sites in automotive supply chains with high con- hectares, later adjusting that down to 30 hectares, tainer transport volumes between them and the before eventually abandoning minimums as the avail- seaports used for exports. ability of free land in Germany rendered minimums unrealistic. For example, the GVZ-concept could not • Seaport GVZs, including those in Hamburg, be established in regions such as Munich, the Rhein/ Rostock, Lübeck, and Kiel, which have operate Main area of Frankfurt, and Stuttgart, where available more or less as seaport logistics zones, with a land is both limited and costly. GVZ development focus on high volumes of transportation services. faced similar problems in the vicinity of major sea- These GVZs are successful in economic terms; ports. In addition, if minimum size requirements are however, the GVZ-philosophy of collaboration a condition of cofounding, they could impede devel- and developing synergies has vanished. The only opment of GVZs in peripheral or other regions with synergies still present lie in the development less demand. phase, in procurement of construction, utilities, and disposal, along with a common telematics Another debate centers on whether or not to allow platform. for “decentralized GVZs,” which would consist of two or more zones because of limited land availability. • Inland port GVZs, including mainly medium-sized Depending on the situation, such geographic sep- ports such as those found in Koblenz, Trier, Well aration might reduce the foreseen socioeconomic am Rhein, and Hern have succeeded in developing benefits of clustering, for example, with a drastically synergies with bulk and other conventional barge reduced accessibility of the transshipment terminal cargo. GVZ status has stimulated the process of by road. transforming these inland port GVZs into centers that provide full logistics services portfolios. 38 MOBILITY AND TRANSPORT CONNECTIVITY SERIES • Urban GVZs, for example those located around a questionnaire distributed among all FVs in those Berlin, cluster logistics activities to reduce the European states associated with Europlatforms. To burden heavy goods traffic place on urban infra- participants, this is also a benchmark exercise in structure and environment. An uncontrolled and which FVs can compare themselves with peers in fragmented development of logistics facilities their own and other countries. The rankings serves leads to dispersed HGV traffic with significant as a measure of success for FVs; however, the rank- use conflicts. From the viewpoint of land-use ings include an important disclaimer warning that planning, clustering into zones is the best way to the level of success is estimated on the basis of 40 concentrate HGV traffic. The high average number variables, included in the inventory, along with a of 1,500 movements of trucks of more than 3.5 weighing process. tons per day per GVZ explains the magnitude of this challenge. Locating GVZ in the urban The questionnaire collects data about physical periphery provides more room for development of characteristics, about tenants and services provided, residential and leisure functions elsewhere in the utilization rates of land and buildings, connectivity agglomeration and contributes toward making the and use of multimodal facilities, features of manage- city more attractive to investors. ment and ownership, and viewpoints of respondents on the strengths, weaknesses, opportunities and Strong and weak points of GVZs— threats (SWOT) for their FV. Based on its latest assess- the freight village rankings ment of the FV market in the Europlatforms com- munity (see table 3.1), DGG published the following DGG, the German Association of GVZs, in 2010, summarizing SWOT-diagram of the top-20 GVZs on 2015, and 2020 published rankings of FVs, which its website (https://www.gvz-org.de/de/leistungen/ include GVZs and other similar structures, based on gvz-ranking-2020/): Table 3.1. 2020 SWOT Diagram for Freight Villages in Germany STRENGTHS WEAKNESSES 1. Centrality/location of the FV 1. Limited space for expansion 2. Excellent connectivity 2. Quality of infrastructure (highway, power supply, other) 3. Intermodal hub function 3. Limited local economic potential 4. Service package (such as security parks) 4. Poor service package OPPORTUNITIES THREATS 1. Development of network or hinterland 1. Labor shortage 2. Land availability 2. Overall trade development (trade conflicts) 3. Terminal expansion/modernization 3. Increased competition from nearby FV 4. City logistics initiatives 4. Climate-related risks (such as flood risk) Source: The Deutsche GVZ-Gesellschaft mbH (DGG) 2020 rankings for freight villages. See: https://www.gvz-org.de/de/leistungen/gvz-ranking-2020/. Rankings available in German only. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 39 This diagram presents, according to the perceptions of services, but as a weakness in 2020 for those of the managers of the highest-ranking FVs, the key offering a less extensive service package. The factors to their success. The SWOT diagram used in importance of the range of services depends on, the previous study (2015) shared many similarities. for instance, the level of specialization in the FV. The factors mentioned include the following: A broader package allows tenants to be more flexible and responsive to fluctuations in their • Location, which to the well-located GVZs is portfolio, although it adds little to those tenants regarded as a key asset. Ideal locations could who operate within steady and dedicated produc- include an economically powerful region with sig- tion chains. nificant trade potential or on important transport axes with high quality infrastructure connections. • The economic potential is a factor in which the FV is mainly dependent on external factors. FV are • Connectivity contributes to the location factor, but likely to flourish in well-developed and growing also is a factor by itself. A GVZ with a hub function environments and have difficulties under opposite implies connectivity in multiple directions and conditions. For FV in areas with low economic is an extra indicator of good connectivity. In the activity, good connectivity can help attract busi- DGG 2015 study, strengths related to connectivity ness; however, such connectivity is a necessary, were, for example, specified as “high performance though not sufficient, condition for success. intermodal terminal,” “trimodal terminal” (includ- ing barge connection) and “private train network.” • Competition is seen as threat. This competition can be from another FV establishing in the same • Limited availability of space could be considered market environment as well as from settlement of both a weakness and a threat because it hinders logistics companies outside of the FV. development of an FV. The limitation could be due to the surrounding terrain being occupied or to • The presence of a strong, qualified labor market potential conflicts of use, for example, if the FV is was mentioned, however, as a threat, which is sign located near residential areas. The issue of space of the current tight market conditions in many constraints often concerns FV tenants, who might parts of Europe. want to expand their business on or near their plot, or need a temporary solution during peak • Managerial issues also were identified as a con- demand or renovation. Limited space also ren- tributor to success or failure. FV manages consid- ders the FV unattractive to potential FV investors ered international networking important for secur- considering the long-term perspective. ing business, and for pursuing common tenant’s interests, quality standards and International • Limited availability of real estate was also men- Organization for Standardization (ISO) certifica- tioned as a factor, along with aging assets within tion, engagement of stakeholders, and effective the FV. decision making. Belonging to a cluster of logistics companies was mentioned as an opportunity, for • The range of services provided was regarded a example, for common initiatives such as “greening strength in 2015 for those offering a wide range logistics.” 40 MOBILITY AND TRANSPORT CONNECTIVITY SERIES • Finally, miscellaneous (mainly negative) and typi- network and generated an estimated 2.3 million TEU cally local points completed the list, for example, railway traffic volume in 2010, a 47 percent share factors concerning environmental restriction and of the total German unitized cargo transport by cumbersome administrative regulation. rail—quite impressive given the traditionally strong presence of multimodal transport infrastructure The top-ranking GVZs in 2020 and 2015 included well- and services outside of the GVZs. This modal shift known successful FV, such as: as impact must, to a large extent, be attributed to the establishment of the transshipment facilities, • GVZ Bremen, Germany’s oldest FV imposed by law and cofunded by national resources. Without this regulation and support, the number • Interporto Quadrante Europe in Verona, Italy, a of terminals would certainly have been lower. The logistics zone surrounding Italy’s largest gateway clustering of logistics service around the terminal terminal, with high-frequency multimodal connec- obviously benefits the competitiveness of multimodal tions to terminals in Germany and other Northern transport and tenants will be aware of and accus- European countries tomed to the multimodal transport option. Practice in many GVZs, however, is that a substantial share of • Logistics Platform Zaragoza (PLAZA) in Spain, traffic is not related to the logistics zone. which is a relatively new logistics zone set up in a greenfield environment. The zone is well-con- The GVZs are also a success when it comes to their nected to railway infrastructure; however, the impact on local traffic. HGV traffic can severely exac- number of available multimodal services is com- erbate congestion levels as well as local air and noise paratively low. pollution exposure; GVZs help to contain this neg- ative impact, by not only bundling logistics services DGG commented on the most recent ranking, stating and long-distance transport, but local freight traffic that well-performing FVs have become more wide- as well. In turn, the bundling improves the effective- spread in Europe. Whereas German and Italian FVs ness of specific measures designed to divert freight have traditionally dominated the rankings, FVs from traffic over less invasive routes. The location of the other Europlatforms-associated countries have been GVZs versus the urban environment is an important steadily climbing the list. determining factor for the magnitude of this benefit. The impacts of GVZs When it comes to exploiting synergies, the impacts are less evident. Research from University of Bremen The anticipated impacts of GVZs in German law (Falk 2012) found little evidence of benefits from indicate clustering will increase the use of multimodal synergies and cooperation between similar types transport and reduce negative impacts of freight traf- of companies. The use of services from third-party fic to its environment, while synergies will improve logistics companies within the same GVZ appeared to transport efficiency. particularly benefit smaller companies; however, only on a small scale. Examples of such synergies include On the first point, success is clearly visible. The GVZs short-term leasing of facilities for cold storage and have succeeded in setting up a multimodal transport other storage space, and leasing of trucks or chassis COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 41 fleets. Also, the expectation that logistics companies Most commonly, PPPs in GVZs have tenants as partial would cooperate by combining their cargoes to save shareholders. Ownership would primarily concern costs did not materialize. Such savings were expected the management and development organization to be found in traffic with lower volumes and truck and its assets, and not necessarily land or other real utilization rates; sharing of truck space could improve estate. The shareholders typically include logistics both. Business practice, however, shows many com- service providers, the terminal operator (often a panies do not regard their neighbors as potential DB affiliate), public institutions, for example, those partners, but rather as competitors. promoting economic development of the region and, if relevant, port operating companies. The weight of Several GVZs have been involved in research and different shareholders differs between GVZs, with development programs cofunded by national or some having a stronger presence of the terminal EU-level resources. These projects typically aim at or port operators and at others logistics service promoting innovations for better or greener trans- providers or municipalities take stronger roles. The port with new technology (such as electric vehicles) balance often is the result of initial ownerships, and or new concepts (such as collaboration in inner-city is therefore historic. Occasionally, shippers co-own deliveries). An example of successful city logistics GVZs and/or the management company. For exam- project, retailer Karstadt in Hamburg succeeded ple, in GVZ Wolfsburg, Volkswagen owns part of the in reducing truck movements by rearranging its land and is the most prominent user. Dominance of deliveries. These same benefits were, however, also single parties in ownership, however, is rare, because reported in cities without a GVZ. it can lead to conflicts of interests in decision making, where the interests of the larger shareholder prevail A GVZ, through its management organization, is well over common interests. equipped for channeling this type of pilot project and for accelerating the diffusion when proven success- The management and development entity will ful. In early years, the success rate was modest; DGG be responsible for arranging basic infrastructure confirmed in an interview2 that such initiatives are provision, including power, water, sewage, lighting, far from “self-rolling.” Recent years provide a reason transport and/or truck parking facilities. In the con- for optimism, since all stakeholders—all public levels struction phase these tasks could also include joint plus the private sector—have further clarified their procurement of goods and services. In the exploita- commitments to reducing emissions. tion phase the entity could take a role in procuring common services, such as security, waste collection, Ownership and the role of government in GVZs fire protection and certain insurance coverage. The entity also supports tenants in obtaining building Europlatforms and national associations indicate rights and building permits, subsidies, and in the public-private partnership (PPP) is the most typical procurement of plots, illustrating how the supporting business model for FVs. role of this entity versus its tenants continues after the leasing or procurement agreement has been 2 Available at https://www.gvz-org.de/ 42 MOBILITY AND TRANSPORT CONNECTIVITY SERIES finalized. The entity typically also takes care of net- The interview also discussed the diversity of prac- working and promoting the GVZ and could represent tice in Europe when it comes to plot ownership. In the GVZ in developing multimodal connections or Germany tenants commonly own their plots, while initiating other types of activities in the tenants’ in France, Italy, and Spain leasing is often the only interests. option, with these variations growing out of different traditions in land use politics across Europe. Also, in Sometimes, land is put under partial ownership of German GVZs, where plot ownership is offered to this entity and revenues from land lease or sale is tenants, private sector generally holds no preference used to cover costs of abovementioned tasks. In one for land ownership over leasing, as the best choice funding option, the municipality liaises with property differs case by case, based on property charac- developers to find property and use revenues from teristics as well as the tenant’s internal financial its lease or sale to fund the start-up phase and/or the considerations. management entity. In a few examples, the GVZ has leased out warehouse capacity and parking lots for In considering the keys to a successful GVZ, DGG this purpose. points to the capabilities and mandate of the man- agement and development entity. The entity must The advantage of this type of PPP-construction above not operate as a traditional landlord, but instead be public ownership is that the early commitment of ten- active and proactive in handling all challenges. In ants improves cash flow and reduces risks to munici- sum, the management entity: palities. It also avoids the need for large prior invest- ment, and the uncertain returns and engagement of • Act as a neutral actor and moderator in problem private stakeholders common in the early develop- solving and must cope with a diversity of needs ment stages, until the exploitation phase—which also and challenges, with tasks expanded when needed helps to improve the quality of the decisions. • Provides the GVZ with its identity No GVZ has adopted “institutional PPP” as its business model, where the PPP would have the • Protects the breadth of service provision within development and exploitation publicly tendered, with the GVZ and promotes development of additional terms concluded in a concession agreement. In an services, which contribute to a stronger GVZ interview, the German GVZ association shared that profile and make the GVZ more competitive this business model is considered too rigid and too cumbersome. The rigidity stems from functionalities • Anticipates needs for expansion and restructuring and events difficult to predict and address in a long- term concession agreement, as opposed to trans- • Secures the long-term dimension and the long- shipment terminals, for example. This difficulty also term interests of the GVZ as a whole in decisions makes tendering cumbersome, with an uncertain and in actions, for example, maintaining the outcome. Both points are even more apparent with attractiveness to future tenants and future invest- larger terrains. Not surprisingly, because evidence ments, which upholds the value of land and assets does not support the effectiveness of this PPP instru- in GVZ ment, developers are less likely to choose it. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 43 • Be involved in attracting multimodal connections An important share of this heavy industry came to a close, a process that started in the 1980s, bringing • Focus its marketing on target groups and commu- with it the inevitable need to reorient the economy. nicating the GVZ portfolio As a consequence, the Port of Duisburg experienced a vast decline in the bulk cargoes it had previously • Influence political decision making in support of relied upon and the threat of bankruptcy loomed. the GVZ’s interests. An opportunity for its redevelopment arrived with the vastly increasing container traffic on the Rhine. • Secure its own funding through a sustainable As an important inland port, Duisburg already had financial model, with revenues sufficient for the excellent waterways and quays, and good railway entity to conduct its tasks infrastructure, and was connected to the four largest European container ports at distances between 200 DGG further emphasized government recognition kilometers (Antwerp, Rotterdam) and 400 kilometers of GVZs and their essential role in the transport (Bremerhaven, Hamburg). Meanwhile, many opera- network. The government must put the appropriate tors in ocean shipping and the logistics sector, eager incentives in place for developing the connecting to develop their inland network, also recognized infrastructure, including the transshipment facilities. Duisburg’s potential. For GVZs, Germany’s cofunding instrument for these facilities has been of vital importance. In Poland, for Today, Duisport functions as a trimodal logistics hub, example, the freight village concept and multimodal connected to the European multimodal network connectivity have not been supported by national by rail, barge, and trimodal terminals as well as to government concerted action. As a result, logistics the China-Europe rail landbridge, primarily via the service provision in Poland has become a highly frag- Trans-Siberian corridor through Russia, Belarus, mented market, mainly dependent upon connections and Poland. Currently, Duisport operates nine ter- via road transport; developing competitive and viable minals with two under development. In 2019, the multimodal transport services is challenging, due in port processed approximately 25,000 calls from rail part to the dispersed locations of potential clients services and 20,000 from barges, handling about 4.1 along the country’s dense railway network. million TEUs, including conversion from semi-trailers and swap bodies. Twenty years ago, Duisport pro- The Duisport multimodal transport hub vided few rail services; 2019 marked the first year the number of rail calls exceeded barge calls. The port The Duisport multimodal transport hub owns the accommodates 220 hectares of warehouse space, land, quays, and other infrastructure in the Port of with a total surface of logistics and industrial zones Duisburg, which has the highest throughputs of totaling around 1,400 hectares. any inland port in Europe. Duisburg has held the position as largest inland port for decades, even as The logport concept its business has changed dramatically. Until the turn of the century the port mainly handled bulk cargo In 1998, the port’s marketing company introduced related to heavy industries (such as coal mining and the logport concept, with the goal to transform steel) in the surrounding region called Ruhrgebiet. brownfield sites into multimodal logistics centers. The 44 MOBILITY AND TRANSPORT CONNECTIVITY SERIES first project aimed to transform the former 265-hect- Logport V and Logport VI are currently under are site of the former Krupp Steelworks in Duisburg- construction, with start-up planned for 2021 and Rheinhausen, now named Logport I. The Duisport 2021. The 30-hectare Logport V is being developed hub expanded the former factory port and adapted together with RAG Montan Immobilien and fresh infrastructure to establish large-scale transshipment. trader, EDEKA, will be the main tenant occupying its Soon after its launch, major logistics companies like central warehouse. Logport VI sits on a 40-hectare NYK, Rhenus, DB Schenker, and DHL leased space in site of the former Walsum paper factory and will have Logport I. In 2002, the trimodal terminal DIT opened, a trimodal connection. Meanwhile, plans are under later followed by two other terminals (D3T and DKT). way for the redevelopment of additional locations in By 2009, most of the area had been leased, with the region. more than half operational. In 2012, the major global logistics service provider Kühne + Nagel established The first logport sites were located inside Port of its worldwide largest complex, covering 18.5 hectares Duisburg territory; more recent development proj- in the Logport I site. ects are located short distances outside of Duisburg. The selection of sites strongly depends on availability, Other developments followed: given the high occupancy of land in the region, due to its dense population and economic activities. The • Logport II, on the opposite side of the Rhine, with expansion of logport sites is not a phased implemen- 35 hectares of logistics area. The site includes tation in the port master plan, but rather based on the Gateway West terminal, jointly owned by case-by-case evaluation of their contributions to the Duisport Group with Imperial Group, and a heavy multimodal logistics hub, along with their marketing goods terminal. Logport II has become a major potential. This criterion implies the site must gen- basis of intercontinental exports for tenants Audi, erate traffic to increase the use of the multimodal Volkswagen, and Daimler. transport facilities in the port and, ideally, include a multimodal terminal on site, which will then be • Logport III occupies the land of a former mar- integrated into the port system. shaling yard, which had become a rail/road trans- shipment terminal. The zone, connected to the Duisburg’s logistics cluster, therefore, is a group of Chempark Krefeld-Uerdingen, has been developed logistics zones with fluid borders. The owners look into a major terminal for chemical products. to develop and maintain a coherent cluster, making optimal use of space and infrastructure. Remote • Logport IV is a 240-hectare former mining site set zones or zones with specific functionality will certainly to become an industrial zone, jointly developed benefit from the multimodal connectivity; however, with RAG Montan Immobilien, an affiliate of a other synergies are not as evident. In addition, many major mining company tasked with redeveloping tenants and terminal operators consider Duisport brownfield sites. part of their internal logistics system, for example, terminal operator Neska runs the Duisburg Rhein Rhur Terminal (RRT) Home Terminal as well as several other terminals encircling Duisport. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 45 The impact of logport Division of asset ownership between the public and private sector The main intention of the launch and rollout of the logport concept, together with supporting initiatives In 1998, Duisport was created as independent developed by Duisport, was to secure the region’s company by its owners: the federal government economic potential. The ongoing closure of many of Germany, and the governments of Nordrhein- heavy industries has led to high unemployment and Westfalen and Duisburg. In 2013, the federal loss of purchasing power throughout the region. government transferred its shares to NRW, because The Logport served as a means to attract logistics ownership of inland ports did not align with national business, and through it also become an attractive policy principles. location for traders and manufacturers operating in global supply chains. For its rollout of the logport concept, Duisport acted as a private company, using loans where needed As such, Duisport and its logport developments must instead of public investment. Additionally, Duisport be seen as the engine in the economic restructuring owned infrastructure and land, selling some of these of the region, rather than a bundling of existing assets for the purpose of capital accumulation, for logistics activities. However, some activities in the example, plots too small for viable exploitation of segment of containerized cargoes were already port or logistics functions, but still interesting to ongoing, for example, Duisburg Container Terminal housing or other developers. This initial capital base (DeCeTe), which had already started in 1984, though was expanded through revenue streams from real- on a more modest scale comparable to many other ized projects, which enabled subsequent expansion terminal locations along the Rhine River. projects—the current financial rating of Duisport is excellent, and thus borrowing conditions for future Therefore, the success of the Duisport as a logistics projects are also excellent. cluster should be measured mainly in terms of its contribution to employment and GDP. While no The federal and NRW governments, as well as the EU, comprehensive and conclusive study has evaluated had invested a cumulative amount of €133 million this, Duisport’s own indicators show 300 companies in the first 20 years of the logport initiative, related with focus on logistics are based in the region of Port to infrastructure with above-regional significance. of Duisburg, employing about 47,000 people—20,000 Federal support also included cofunding the realiza- more than when Duisport started. The estimated tion and expansion of the transshipment terminals, added value is €3 billion per year. In the Duisport as part of the German program for developing the organization, employment has increased from 210 in multimodal transport network. 2001 to 1,500 employees in 2018 and is expected to increase to 2,800 within a few years. According to sta- Duisport has no blueprint approach in developing its tistics mentioned during Duisport’s 20th anniversary logistics zones; rather, it decides on a case-by-case celebrations, employment in Logport I had exceeded basis which role Duisport should take and which role employment numbers for the Krupp Steelworks, once should be assigned to private sector investors or a vital part of the regional economy. other public entities. The same applies to the multi- modal terminals. 46 MOBILITY AND TRANSPORT CONNECTIVITY SERIES While the earliest logistics zones belonged to • Duisburg Trimodal Terminal (D3T) in Logport I is Duisport, and the development and operation of land 40 percent owned by CMA-CGM, 40 percent by plots for logistics service providers was Duisport’s NYK, and 20 percent by Duisport. sole enterprise, the transshipment facilities were joint ventures between Duisport and the private • Duisburg Kombiterminal (DKT) in Logport I is fully sector. Logport IV became the first site with private owned by Bertschi Group. sector participation in developing the logistics zone as a whole. The private partner for the project, RAG • Rhein Rhur Terminal (RRT)–Gateway West in Montan Immobilien, an affiliate of mining enterprise Logport II is fully owned by Neska. RAG Montan, was established for the purpose of transforming its former sites for new purposes. The • Chempark in Logport III is fully owned by SvdM successful joining of forces combined the interests (Samskip/van Dieren Maritime). of Duisport, as landowner, with those of RAG Montan when the land became available. In a recent initia- Ownership relations develop over time, for example, tive, however, RAG Montan decided to redevelop its Duisport recently took a 21 percent share in DeCeTe, brownfield site into a logistics area without Duisport’s which previously was fully owned by Hutchison Ports. involvement, showing the limitation to Duisport’s However, ownership of terminals is not an objective position of having to accept the possibility of third- for Duisport, which applies a cost plus fee principle party initiatives, though the zone development must where it participates. be compliant with (generally defined) land-use plans. The risk of such private initiatives, expressed from Warehouses are privately owned, by either the user Duisport’s viewpoint, is that the logistics cluster could (logistics company) or real estate company for leas- become fragmented, leading to more road conges- ing, long- or short-term. tion and lower use of multimodal transport. Nothing indicates logport tenants would be con- Transshipment terminal ownership does not include cerned about owning the land. Interviews with land. Instead, the terminal operating company invests Duisport conducted for this report corroborate that in buildings and equipment, but, inside the port most tenant have little interest in the maximum area, Duisport retains ownership of the land, quay level of ownership, because this also means bearing walls, and other vital port infrastructure. Most of the the full risk. Duisport encourages partnerships that transshipment terminals are joint ventures of private include risk-sharing arrangements with tenants, while companies, originating from ocean shipping lines, allowing significant space for private developments if logistics service providers, and by railway, barge, other investors wish to assume the risk. multimodal, and terminal operators. Duisport holds a share in some of the terminals, including the termi- An important argument in support of Duisport hold- nals in Logport, with ownership divided as follows: ing stake is to guard the interests of the port system as a whole. A good balance in ownership prevents • Duisburg Intermodal Terminal (DIT) in Logport certain private interests from dominating. Such I is 60 percent owned by Rhenus (Contargo), 30 dominance could lead to an undesirable dependency percent by Duisport, and 10 percent by Hupac. situation for Duisport or groups of tenants, and could become an obstacle in long-term development. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 47 Duisport’s interests are best served by a full-service One of the fields in which Duisport has been active portfolio to support the presence of supply chains is in improving its multimodal connectivity by for all its tenants. For most services, this is a natural developing routes, to attract business in transport process that only needs accommodation by Duisport. and logistics, improve the port’s attractiveness to all Occasionally, when services are not provided by players in supply chains, and make the port resilient private sector, the port has intervened by taking to business cycles of economic sectors. Duisport’s over ownership. For example, the port invested in role goes beyond general promotion activities and Duisport rail for the unprofitable last-mile shunting includes support for developing business cases and by rail. Leaving this to the market would have meant deal making. the services would not be provided, thus making the port less attractive. The development of rail services in cooperation with China represents another significant achievement for The other side of the same coin is that Duisport tries Duisport. Started in 2011, the rail line includes nearly to avoid leasing space to tenants who have no rela- 35 services per week and should soon expand to 100 tionship to the port system. A certain level of “profile per week, generating 850,000 TEU traffic per year. contamination” is difficult to avoid, but too much To accommodate this traffic, Duisport is planning could reduce the efficiency of the port system. construction of the Duisburg Gateway Terminal, expected to be commissioned in 2022, in joint From Duisport’s perspective, investing in the port venture with Chinese transport companies COSCO, system demonstrates its confidence in the future, Hupac, and HTS. In this continuing development which will naturally encourage tenant confidence. phase, Duisport offers the knowhow and facilities as In contrast, not investing could discourage tenant well as the ability to mobilize the community for back investment. loads in order to strengthen the business case of the service—a role other logistics nodes cannot offer. Duisport as an entrepreneurial port Similarly, Duisport also participates in a terminal in The development of Duisburg into Europe’s main Minsk, holding a 30 percent share as part of a 9,000 inland multimodal hub and its expansion of logistics hectare development. The location is strategic for terrains since the establishment of Duisport have trade with China as well as Russia and Belarus and been remarkable. In the 1990s, when authorities the logistics zone will be asset in developing addi- recognized the need for drastic measures and mas- tional trade routes to China. sive opportunities, the owners appointed the current three members of the Executive Board to lead the Duisport, together with its counterparts, is also transformation process, improve performance, and exploring alternative route options for expanding create profitability. For these efforts to succeed, own- this trade and safeguarding its position. These routes ers chose outsiders originating from business com- could include the TransCaspian transit corridor and munities to take the lead. The CEO’s self-acclaimed the newly-completed Baku–Tbilisi–Kars rail corridor motto is “Don’t talk, take action”—also a good sum- via the Caucuses and Turkey. mary of Duisport’s own approach to development. 48 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Duisport also initiates and engages in innovation building permit process, offering several training and projects. For improving the process efficiency, the education programs, and more. Knowledge sharing port has adopted the use of a optical character and software are often free of charge, provided recognition (OCR) gate for its railway system, to make tenants cooperate in providing statistical and other information exchange with the port more accurate information. and enable immediate processing. For its tenants, Duisport has helped develop ergonomic crane cabins With this type of support, the port tries to safeguard and ergonomic handling devices for cranes, and its position for the long-term. One reason behind the freely shared the newly designed cranes with its port’s engagement in ergonomics is to promote safe, tenant community. Further initiatives include sharing healthy working conditions and improve staff reten- its knowledge of crane management system, provid- tion, an important consideration when finding employ- ing guidance for tender specifications, supporting the ees can be challenging in the current labor market. References KiM (Netherlands Insitute of Transport Policy Analysis). 2018. Key Transport Figures https://english.kimnet.nl/ mobility-report/publications/documents-research-publications/2019/01/11/key-transport-figures-2018. Falk, Christian. 2012. Renaissance Güterverkehrszentrum—Der Fall und Wiederaufstieg deutscher GVZ. Schriftenreihe des Lehrstuhls für Logistikmanagement No. 12/2012 (German). http://nbn-resolving.de/ urn:nbn:de:gbv:46-00104992-12. Ministry of Infrastructure and Water Management (Ministerie van Infrastructuur en Waterstaat). 2019. Appointment List Administrative Consultations MIRT 20 and 21 November 2019 (Afsprakenlijst Bestuurlijk Overleggen MIRT 20 en 21 November 2019). The Hague: Government of the Netherlands. https://www.rijksoverheid.nl/documenten/ rapporten/2019/11/21/bijlage-1-afsprakenlijst-bestuurlijk-overleggen-mirt-20-en-21-november-2019. Sheffi, Yossi. 2012. Logistics Clusters: Delivering Value and Driving Growth. Cambridge: MIT Press. https://mitpress. mit.edu/books/logistics-clusters. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 49 4. Logistics Clusters in the United States 50 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The Context of Multimodality in the United States in Brief The United States is the world’s leading economy in inland location is too high. For example, for trade terms of gross domestic product (GDP), generating with Europe the canal route is not attractive, it is US$20.5 trillion in 2018, with a population of 327 attractive for trade between Southeast Asia and the million, and a diverse geography and economy. eastern United States. Population density and economic production are highest in the eastern half and in the southwest of This partition of trade gateways between Pacific and the country. Atlantic coasts implies long hinterland travel dis- tances, for example, the highly dense traffic between U. S. gateways Chicago and LA/LB, over a distance of around 3,200 kilometers. The main U. S. gateways for maritime-borne trade of containerized cargo with East Asia—the high- U. S. multimodal transport system est-density intercontinental containerized trade corridor—are the Pacific Ocean ports of Los Angeles/ Multimodal transport in the United States accounts Long Beach (LA/LB, both located in the same bay), for approximately 25 percent of revenue for major which handled a total throughput of 19.5 million U. S. railroads, which makes it the largest of market twenty-foot equivalent units (TEUs) in 2018, followed segments. The number of units carried in 2018 by Seattle/Tacoma Alliance and Oakland, a distant reached 14.5 million, consisting of containers (92 second and third with throughputs of 3.8 million percent) and truck trailers (8 percent) on wagons. TEUs and 2.5 million TEUs respectively. This traffic includes trade with Oceania and America’s west In domestic traffic 53-foot containers have become coast. The Pacific Ocean ports are generally preferred the main loading unit. These replaced much of the for the vast territory coverage of the United States, earlier truck trailer traffic on rail and, because of including central as well as many eastern regions. improved competitiveness, also attracted traffic that had previously gone by road. In 1990, only 47 percent The Atlantic Ocean Port of New York/New Jersey with of intermodal traffic was transported in containers. a 7.2 million TEU throughput is the most important The 53-foot containers are not compatible with gateway for trade with Europe, the second important maritime traffic, and therefore common practice continent for maritime container trade, and with transloads cargo between maritime and 53-foot con- America’s east coast, Africa, and South Asia. Other tainers in the vicinity of the seaport. This improves gateways for this traffic include Savannah (4.4 million multimodal transport efficiency in the hinterland and TEUs), Hampton Roads (2.9 million TEUs), and five keeps maritime containers close to the ports and additional medium-sized Atlantic Ocean ports with better available for the ocean carriers. between 1 and 2.5 million TEU throughput. The railway system consists of railways divided into The maritime route through the Panama Canal classes based on their revenues. The largest, Class provides an attractive alternative option if the over- I operators, are the involved in long-distance inter- land distance between the U.S. gateway port and the modal transport services, whereas Class II operators COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 51 are most often regional lines, and Class III operators The other important node in the intermodal net- have local significance only. Seven Class I railway work is the LA/LB port complex, with a combined companies are currently active in freight transport throughput of 19.5 million TEUs. LA/LB is a west in North America; two of these are Canadian owned. coast gateway with a hinterland stretching out to the The share of Class I operators generate more than country’s east coast. Railways provide a competitive 90 percent of the total revenues from rail freight. hinterland transport alternative to regions east of the Together, the Class I networks provide good cover- Rocky Mountains—more than a one-day drive from age of the U.S. territory and connect all major sea- Los Angeles by truck—a vast share of LA/LB’s traffic. ports. The railway network, designed for and mainly These high throughputs and the gateway role bring used for freight, is suited for mass transport. For revenues to the region, but also place significant example, the Burlington Northern Santa Fe (BNSF) pressure on the transport system in the vicinity of Railway route between Los Angeles/Long Beach the port. To help relieve tis pressure, the ports have and Chicago allows for double stack trains up to 2.4 taken the following measures: kilometers in length. • Established large-scale intermodal onsite facilities The two main railway operators for intermodal trans- to increase efficiency of transshipment between port are BNSF and Railways Credit Union (CU), which ocean vessels and full-length trains; and operate in the western part of the country and CSX Transportation for the eastern part. For land bridge • Joined forces in developing the Alameda corridor, services or other services extending beyond individ- a dedicated 32-kilometer rail cargo “expressway,” ual networks, railway operators work cooperatively. opened in 2002, through the urban environment, to connect the ports with the BNSF and CU Intermodal rail traffic in 2017 totaled 8 million TEUs networks. around Chicago, followed by the region of LA/LB and San Bernardino (5.2 million TEUs) and then, on The practice of transloading between maritime distance, by Atlanta and Dallas (1.4 million TEUs). 40-foot containers and continental 53-foot containers (and vice versa) typically takes place in the vicinity The region around Chicago serves as a hub in the of the port. For example, traffic in the immediate system where most railways are present and where hinterland passes through a facility in which cargo much of the transloading between networks takes is transloaded, making railway transport over the place, either using rail-to-rail transshipment or “continental leg” even more efficient. The transload- connecting drayage services. ing could be cross-docking, involve warehousing, or (mainly for imports) could include value-added services to the cargo. 52 MOBILITY AND TRANSPORT CONNECTIVITY SERIES U. S. Transport Policy Framework The transport policy in the United States is designed that include safety, economic competitiveness, to leave as much as possible for initiative and deci- quality of life, environmental sustainability, state sion making to the private sector and to local (munic- of good repair, innovation, and partnership. ipal) governments. Federal involvement is present in the road infrastructure, airports, and waterways, • The Infrastructure for Rebuilding America (INFRA) though not in municipal-owned seaports and pri- grant program provides funding for projects vately owned railways. that address critical issues in the national freight system. INFRA grants support all levels of govern- While the national highway system is an interstate ment and the private sector to fund infrastruc- system, for long-distance transport the network ture, using innovative approaches to improve is maintained by each state, which could initiate processes, increase accountability, and promote changes to the network with federal approval. Within safety solutions. states, infrastructure ownership is divided between the state and municipal level governments, depend- • The 2015 Fixing America’s Surface Transportation ing on the function of the infrastructure. Though Act (FAST) Act operates as a federal intervention not widespread, private ownership of road links with for urgently needed improvements in the U.S. general economic significance (toll roads, for exam- infrastructure network. The FAST Act provides ple) also occurs. long-term funding certainty for surface transpor- tation to states and local governments for critical The planning framework assigns a modest role to transportation projects. The law also includes the federal level. The overarching objectives of U. S. improvements for streamlining approval pro- transport policies, for example, include improving cesses, or removing red tape, for new transporta- of competitiveness and safety; however, the federal tion projects. The FAST Act specifies that a portion government does not engage in national master of a state’s freight formula funds can be used for planning and infrastructure prioritization. A few multimodal freight projects, an amount capped at federal instruments for steering and accelerating 10 percent for each fiscal year. These multimodal road infrastructure development are available, for projects should be designed to improve connec- example: tions with multimodal facilities on critical freight corridors. Federal cofunding is allowed up to 80 • The Transportation Investment Generating percent. Economic Recovery, or TIGER program, and its follower, Better Utilizing Investments to Leverage On the state and municipal levels, the governments Development, or BUILD, provide grants for plan- take responsibility of their respective transport ning and capital investments in surface transpor- networks. For example, Illinois, home to perhaps the tation infrastructure. These grants are awarded on nation’s principal inland transport hub, with an exten- a competitive basis for projects that will generate sive multimodal freight system, in 2017 developed a significant local or regional impact. The current the Illinois State Freight Plan (https://idot.illinois.gov/ BUILD funding supports roads, bridges, transit, transportation-system/transportation-management/ rail, ports or intermodal transportation. BUILD planning/illinois-state-freight-plan). The plan’s actions projects will be evaluated based on merit criteria align with federal-level instruments, for example, by COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 53 promoting projects most suited for receiving funding tunnels, and other infrastructure and equipment. The from FAST or other programs. The United States networks of these Class I railways together provide Department of Transportation (DOT) has defined good geographical coverage of the United States, district and corridor programs after identifying the often cooperating in operations with Class II and needs of key routes for clusters of Illinois industry. Class III operators. The DOT also provided institutional and financial support to the Chicago Region Environmental and The government provides railway infrastructure only Transportation Efficiency (CREATE) Program, which is by exception, as seen with the previously mentioned a US$3.2 billion project combining public funds from Alameda Corridor. The project was initiated by the state, the aforementioned federal sources, and the Southern California Association of Governments in municipal level, together with private funding from 1981, in response to growing concerns surrounding railway companies, for removing railway related bot- the ability of the ground transportation system to tlenecks and improving connectivity with intermodal accommodate increasing levels of traffic in the Los facilities. The plan comments that the 10 percent cap Angeles port area. on allocation to multimodal projects does not ade- quately address the needs, considering the size of the These local governments established the Ports state’s multimodal network and the amount of freight Advisory Committee (PAC) with representation of that originates, terminates, or passes through Illinois. stakeholders, such as local elected officials and representatives of the Ports of Los Angeles and Long U. S. seaports are typically owned by the respective Beach, the U. S. Navy and Army Corps of Engineers, municipalities. The typical structure is that of the Los affected railroads, the trucking industry, and the Angeles and Long Beach ports, where municipalities Los Angeles County Transportation Commission created independent ventures for port development (LACTC). The PAC first dealt with highway access and and operations, thus separating port business from later commissioned studies for railway solutions. municipal responsibilities. Ports create their own the committee concluded that consolidating all revenue streams to cover capital investments and trains on an upgraded Southern Pacific San Pedro operational costs. Branch right-of-way would be the most cost-effective alternative. The Alameda Corridor Task Force (ACTF) Railways in the United States are almost entirely was created, which expanded the PAC by adding privately owned, with railway companies owning, the California Public Utilities Commission (CPUC) building, and maintaining their infrastructure as well and representatives from each of the cities along as rolling stock. Combined, America’s freight railroads the proposed corridor. This task force created the spent more than US$710 billion, between 1980 and Alameda Corridor Transportation Authority (ACTA), a 2019, on investment and maintenance expenses joint powers authority with design and construction related to locomotives, freight cars, tracks, bridges, responsibility for the Alameda Corridor. The line opened in 2002, with ACTA functioning as operator. 54 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Multimodal Transport and Logistics Clusters The multimodal transport network is the domain of The railway companies own the railway infrastructure maritime ports and railway companies. and suprastructure in the terminal, usually also on procured land. Many of the intermodal railway Seaports, as entry points of the North American facilities owned by the Class I operators are large railway-based multimodal transport network, han- scale, with rail track lengths between 1,200 and 2,400 dle carriage of maritime containers and the larger meters, allowing full trains to be handled without the (53-foot) domestic containers, after transloading need for marshaling operations. between maritime and domestic containers. When these transloading facilities are close to the seaport, Increasingly, transshipment terminals have become the cost advantages of using the domestic container integrated with the logistics systems of their users. for the inland haul can be optimally exploited. As For example, Class I railway BNSF distinguishes such, transloading facilities are important nodes in between the following systems: import and export flows, and with the considerable amounts of goods passing, make attractive locations • Logistics centers—including Hudson, Oklahoma for a variety of supporting logistics services. City, Fontana, and Sweetwater—where BNSF offers plots for industries to develop rail-based The massive traffic flowing between seaport and business, typically bulk cargo; and transloading facility creates an opportunity for devel- oping multimodal transport services. However, the • Logistics parks—including Stockton and San short distance covered could handicap the multimodal Bernardino, both near Californian seaports; transport’s competitiveness. For example, even though AllianceTexas in Fort Worth; Kansas; Chicago; and a high presence of logistics services and transloading Memphis, all BNSF intermodal facilities adjacent to terminals operate around Los Angeles and throughout large third-party logistics zones. the nearby Inland Empire region to the east, multi- modal services between LA/LB and these facilities do In its logistics centers, BNSF initiates the develop- not exist. The potential for such services has been ment, constructing the railway connection and offer- recognized and with the Alameda Corridor, railway ing land plots for lease to industrial companies reliant infrastructure is readily available, but neither the Class upon the railway connections, typically for bulky I operators BNSF and Union Pacific (UP), nor short-line cargoes rather than containerized goods. operators have followed up by investing in a transship- ment terminal to cover this short-distance traffic. The logistics parks function via cooperation between BNSF and other entities. BNSF provides the inter- The Virginia Inland Port (VIP) provides a well-known modal facilities and the rail connection to the main example where short-distance rail service has suc- network, while third parties initiate the logistics zone ceeded. The VIP is owned by the Port of Virginia—also development. The most well-known and most size- called Hampton Roads—the third largest seaport able ventures include AllianceTexas in Fort Worth and complex on the U. S. Atlantic coast, which handled the Centerpoint Intermodal Centre in Chicago, which nearly 3 million TEUs in port throughput in 2018. will be described in the next subsections. Hampton Roads launched the VIP with the idea of bringing the seaport closer to the hinterland to increase the seaport’s competitiveness. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 55 Virginia Inland Port and Pittsburg (around 300 kilometers). The facility is well-connected to interstate highways I-66 and I-88, The VIP was established in 1989 by the Virginia Port with NS providing daily rail services between the VIP Authority (VPA), an independent public corporation and Norfolk International Terminals (NIT; annual created by the Commonwealth [State] of Virginia to capacity of 1.4 million TEUs) and Virginia International handle all port operations. The VIP was developed Gateway (VIG; annual capacity of 1.1 million TEUs) in with the purpose of bringing the port closer to the Portsmouth, both part of Port of Virginia. customer, extending the seaport’s reach into the hinterland, and securing traffic through the seaport. The distance by rail between the VIP and NS is about The inland port acted an instrument in the competi- 650 kilometers, just under double the distance by tion between the Port of Virginia and other seaports road, which is a competitive disadvantage to rail- for export cargoes and helped convince ocean lines ways. Despite that, NS offers competitive rates to its to include the Port of Norfolk in their sailing sched- users, however only for the targeted container traffic ules. The ocean lines’ abandonment of the Port of and not for train-loaded trailers. Train capacities Baltimore in the 1980s, an obstacle in international for container operations provide much better load trade potential of hinterland regions, also prompted rates than trucks on train and trains with containers the VIP development. mixed with trucks would require different handling techniques in the VIP as well as in the seaport termi- Though not initially the main reason for devel- nals, which would increase complexity, resulting in opment, the VIP also contributes to alleviating increased costs. congestion and supporting capacity for handling and storage at the seaport facilities—where space The planning process for the VIP started in 1984 by for expansion is limited—as well as to reducing the engaging representatives of ocean lines, railways, environmental burden of hinterland traffic. and the trucking industry as well as shippers and freight forwarders in order to set up a seamless and The VIP fully targets on international trade, with integrated concept, preventing bottlenecks in opera- cargo transported in maritime containers, accepting tions as well as in customs and administrative pro- and delivering containers under ocean carriers’ mul- cedures. Also, the VPA engaged customs authorities timodal bills of lading. The site is also a U. S. Customs from the beginning—considering the inland customs port of entry. As such, the VIP can be considered a post, and therefore the possibility of container traffic “satellite” facility of the Norfolk marine terminals. passing the seaport without delay—is a vital element of the VIP concept. Located at Front Royal, on about 64 hectares, the VIP includes a transshipment facility of five tracks of In 1987, the VPA and NS reached agreement and about 520 meters length, owned and operated by they proceeded to examine alternative site locations, the VIP, and with railway services provided by Norfolk together with local authorities. The VIP site in Front Southern (NS) railway company. The VIP is about Royal was selected because of the easy road and the 350 kilometers by road from the coastal facilities vicinity of NS territory and because of the lower costs of Port of Virginia and a relatively short distance to for land acquisition. The initial concept was to run a Washington, D.C. (approximately 100 kilometers) dedicated NS train three days per week between the 56 MOBILITY AND TRANSPORT CONNECTIVITY SERIES seaports and the VIP, anticipating an annual traffic of • Services supporting logistics, which include 20,000 international containers. The initial studies of warehousing and cold storage facilities as well as the likely traffic showed a potential for 100,000 con- bonded warehousing. tainers per year, demonstrating the VPA’s cautious approach in designing the VIP. The approximately 64 hectares of the VIP also house several logistics service providers who invested in The VIP became operational in 1989 and reached warehousing and retailer distribution facilities sur- its targeted level of 20,000 international containers rounding the transshipment terminal. In hindsight, for the first time in 1999. Later the VIP’s throughput the VIP acquired an inadequate amount of land for expanded rapidly, reaching 35,000 containers in 2005 clustering of logistics services and main shippers and 38,000 in 2018, corresponding with 65,000 TEUs. using the facility, and therefore much of the traffic Current estimates show more than 90 percent of passing through the inland port relates to a wider traffic through the VIP represents new traffic to the region. For example, Home Depot’s distribution Port of Virginia, indicating the VPA has succeeded in center, established in 2003 at a 12-kilometer distance its mission. The transshipment capacity of the NS rail- from the VIP has been an important contributor to way terminal is 78,000 TEUs per year. Plans call for an the port’s success. expansion to eight tracks, which will increase capacity to more than 100,000 TEUs. This capacity expansion Cargo moving through the VIP on a multimodal bill aligns with the port’s strategy to further increase of lading to and from locations in neighboring states its already high share (35 percent) of railways in its must also be considered as the VIP’s hinterland. hinterland traffic to 40 percent in 2022, for which the port has invested heavily in getting the required rail Funding the VIP came together rather easily after leg- infrastructure in place. islation was passed in 1986 to create a Transportation Trust Fund; the inland port was constructed with The services provided through the VIP support resources taken entirely from this trust fund. The the multimodal transport chain, which include the original US$10.75 million and subsequent US$2.25 following: million was paid on a pay-as-you-go basis, through which the VPA could avoid incurring debt in the • Services supporting the transport operators, such construction phase. Since 1994, the VIP has been as repair and maintenance of transport assets, self-sufficient and operating at a profit. chassis pools, refrigeration units, and their gener- ator sets; The foreseen expansion will use US$15.5 million from the federal BUILD program, next to US$27 million • Services supporting the transport and trade from VPA’s budget. The funding will be used for process, including all customs handlings, inspec- infrastructure—including a capacity expansion from tions of cargoes and vehicles, veterinary, and the five to eight tracks and removal of a nearby cross- United States Department of Agriculture (USDA) ing—and for the acquisition of terminal equipment, inspections; and such as straddle carriers. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 57 AllianceTexas in Fort Worth own facilities. For about half the zone, Hillwood has entered into long-term leases with first class tenants The Alliance Global Logistics Hub, an ILC in Fort and then used these leases to privately finance and Worth—60 kilometers from Dallas—features logistics develop warehouse and distribution space. zones around a dedicated cargo airport. Alliance was initiated in the early 1980s, as the first large-scale Due to legal requirements, ownership of the cargo ILC development in the United States., when the airport lies with the City of Fort Worth. In order to Perot Group acquired almost 5,000 hectares of land arrange this, Perot Group and the city officials agreed north of Fort Worth. At the time, the regional office to partial in-kind ownership swaps, in which Alliance of the Federal Aviation Authority (FAA) was looking Air Services (a Hillwood subsidiary) maintains a long- to transfer aviation activity away from the congested term operation contract. Dallas-Fort Worth (DFW) airport and recognized the potential of the Alliance site for this purpose. After The initial investments for the development of the air- the FAA had committed to pursue this greenfield port and logistics zone, therefore, have been mainly development, the Perot Group took the upfront privately funded as follows: financial risk as well as the lead in designing and con- structing of the airport. The airport opened in 1989 • By in-kind swaps by the Perot Group, who pro- and soon benefited from the settlement of a major vided 320 hectares of land; aircraft maintenance facility of American Airlines (AA), anchoring AA’s air traffic and related businesses. • By the initial anchor investors, including American Airlines (US$350 million), FedEx (US$300 million), The development decision for the Alliance property and Nokia (unknown amount); and had already been taken when BNSF joined and built a large-scale intermodal facility, which opened in 1990. • By BNSF, which fully funded its BNSF Alliance A looming expiration of their land lease agreement Intermodal Hub and the connecting rail infrastruc- Dallas provided a motive for BNSF to relocate to Fort ture (US$50 million). Worth, along with the promise of a major distribution and manufacturing park being co-located on the Public investments came from: Alliance hub property. This park was established, on modest pace, throughout the 1990s; significant set- • The State of Texas, who contributed to the project tlers included the southwest hub of Federal Express by creating three major interchanges to provide (1993), and cellular phone manufacturer Nokia who interstate highway access to Alliance; opened a distribution center (1994) and then a manu- facturing center (1995). • The City of Fort Worth, who contributed by con- structing local roads and utility infrastructure, Property developer Hillwood, owned by the Perot such as water, sewer, electrical and gas; and Group, is responsible for marketing and exploitation of the logistics and industrial zones. Hillwood sells • The FAA, through a US$85 million grant from its land to tenants, who then finance and develop their Airport Improvement Program. 58 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The AllianceTexas cargo airport has developed as CenterPoint Intermodal Center the world’s first purely industrial airport designed for cargo and corporate aviation and is now the most CenterPoint Intermodal Center (CIC) Elwood-Joliet is prominent pull for logistics business development an ILC located on 1500 hectare of land approximately in the hub, with many tenants of the logistics zone 60 kilometers southwest of downtown Chicago. depending on aviation services for their distribution. The CIC is a combination of the CIC-Elwood, home In 2004, about 170 hectares of plots were occupied, to the BNSF Logistics Park, operational since 2002, about 50 percent by regional distribution centers, 20 and the extension toward the north, home to UP’s percent by other logistics services, and 20 percent by Joliet Intermodal Terminal, in operation since 2010. manufacturing and assembly. Later, other important Combined, the CIC-Elwood and CIC-Joliet create the logistics companies as UPS, CEVA, DSC, and Exel—and largest master-planned integrated logistics center in recently also Amazon—located a distribution center North America. in the Alliance ILC. The development also created subclusters, for example, with tenants from the The CIC is the largest inland port in the United States automotive industry including, for example, Hyundai, with annual handling volumes of around 4 million Audi, General Motors, Ford, Bridgestone, Firestone, TEUs. If maritime ports are included in this port Tucker Rocky, and Enkei, and electronics industry ranking, CIC would still be the third largest logistics leaders such as LG Electronics, Texas Instruments, complex in the United States, after LA/LB and New AT&T, and Motorola. York/New Jersey. Major retailers and importers such as Walmart and As the major freight hub in the United States, the Home Depot were among the first and largest users Chicago area serves all modes of freight transpor- of inland facilities such as the AllianceTexas ILC, with tation, with a significant amount of U. S. rail-based a steady trend of consolidating multiple distribution intermodal traffic flowing through Chicago. Chicago centers into a smaller number of hubs with adequate is also congested, particularly for freight moving by logistics capacity. For example, J.C. Penney created its truck and rail; for example, rail freight can take a full national distribution center at the AllianceTexas site, day just to get through Chicago. The CIC is one of replacing its former distribution centers on the East the developments that stems from the objective of and West Coast. alleviating this congestion. The BNSF Alliance Intermodal Hub has succeeded in The CIC was built on a site, formerly a military arse- gradually building up its intermodal traffic and has nal, declared excess U. S. Army property in 1993; a current throughput of around 600,000 load units, legislation approved its conversion into a variety benefiting from its position in the ILC. The BNSF facil- of civilian uses in 1996. Several ideas emerged for ity also attracts much of its cargo from its gateway the brownfield development, for example, building position to the larger region around, including the Chicago’s third airport. In 1995, the State of Illinois Dallas-Fort Worth metropolitan area and many other established the Joliet Arsenal Development Authority regional urban communities, such as Oklahoma City, (JADA), tasked with planning the site development, Houston, and San Antonio. seen as the engine of local economic development. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 59 JADA subsequently produced a strategic plan, Service, 24 hectares to a wetlands conservation which considered conclusions from earlier studies project and 4 hectares to the City of Elwood. By conducted by the Government Accountability Office donating land, CenterPoint expected to gain a level (GAO)1 indicating that Illinois needed long-term solu- of acceptance for any impacts in quality of life that tions to alleviate congestion and capacity constraints might occur by the development and use of the site. in the Chicago transportation system and that new infrastructure should include a multi-user intermodal In October 2002, the 310-hectare BNSF Logistics Park- terminal that would permit rail-to-rail connections. Chicago (LPC), which includes a BNSF warehouse and The U. S. Department of Transport, supported by this distribution area, and the CIC-Elwood logistics park GAO report, had recommended a site outside the city opened. This was followed in 2010 by the opening in order to alleviate inner city truck congestion. JADA’s of the 320-hectare Union Pacific’s Joliet Intermodal strategic plan considered the arsenal site well suited Terminal (UP-JIT), located only 3 kilometers north of for such intermodal facility, because it was near two CIC-Elwood. CIC-Joliet had earmarked 185 hectares interstate highways and networks of two Class I for industrial facilities such as warehousing, distri- railroads, BNSF and UP. The site is also exceptionally bution, and manufacturing, and 160 hectares for well buffered from conflicting land uses. container management yards. The CIC Elwood-Joliet is also zoned for a third Class I intermodal facility. Private owner and property developer CenterPoint acquired the land, totaling 890 hectares, promising to CenterPoint Properties Trust, the master developer of use its own capital to transform the site into a major the CIC-facilities, leases parcels to tenants on which intermodal facility. In 2000, the U. S. Army transferred they can operate and manage their freight and logis- a signed memorandum of agreement and deed, tics activities. Major tenants include Walmart, DSC which included provisions for property cleanup, Logistics, Georgia Pacific, Potlatch, Sanyo Logistics, ownership, development, and fiscal incentives. Before Partners Warehouse California Cartage, and Maersk. the construction could start, more than 1,200 sepa- rate structures on the property had to be demolished The development of CIC Elwood-Joliet has been on this superfund site, which required environmental successful; both UP and BNSF sought an opportunity cleanup of the polluted land. The project obtained to build greater capacity into their system and thus funding from the Illinois Department of Commerce better accommodate the strong growth they faced in and Community Affairs (DCCA) to replace the site’s global container traffic. An important success factor water and sewage system. DCCA, in conjunction with also has been the proactive role of government, in the Illinois Department of Transport (IDOT), also particular JADA, as vehicle, coordinator, and facilitator financed improvements to the site’s access roads. of this development. After the completion of CIC- Finally, the industrial park would be annexed into Elwood-Joliet, JADA has continued as dialogue partner Elwood and a tax incremental financing (TIF) district with multiple stakeholders, now that the surrounding was created, which provided CenterPoint with tax region is increasingly faced with new challenges incentives for developing the land. related to local mobility—caused by the volume of truck traffic generated by the facilities and at-grade For goodwill purposes, CenterPoint donated land rail crossings. to nearby users, including 30 hectares to the Forest 1 The Government Accountability Office (GAO) is an independent, nonpartisan government agency that examines how taxpayer dollars are spent and provides the U. S. Congress and federal agencies with objective, reliable information to help the government save money and work more efficiently. 60 MOBILITY AND TRANSPORT CONNECTIVITY SERIES COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 61 5. Logistics Clusters in the Republic of Korea 62 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The Republic of Korea (hereafter referred to as Korea) consistent transport and logistics interventions under has made rapid economic progress during the last a balanced regional framework, as established in the sixty years. Its average gross domestic product (GDP) Comprehensive National Territorial Plan. This stra- per capita increased from a mere US$61 in 1961 to tegic vision of transport and logistics was paired—in US$30,600 in 2018, as the country transitioned from accordance to laws and regulations—with (1) sec- one of the poorest countries in the world to a high-in- tor-specific plans for ports, airports, roads, railroads, come nation with the world’s tenth largest economy. logistics, and metropolitan-area transportation; and While several factors have been critical to Korea’s (2) special accounting standards for transportation rapid economic growth, one of these key factors is facilities to provide stable resources for the installa- the timely construction of efficient transportation and tion and management of the nation’s transportation logistics infrastructure to enable the rapid movement infrastructure. of both people and goods. Investments in transportation infrastructure have Korea’s rapid pace of economic growth in the 1980s been central to Korea’s periodic, national five-year and 1990s led to a substantial increase in import and economic development plans. These investments export volumes. The average growth rates for Korea’s span the construction of the transformational imports and exports were 12.1 percent from 1980 to Gyeongbu Expressway in 1970—which reduced 1985 and 13.5 percent from 1985 to 1990. The exist- the travel time between Seoul and Busan from 8 ing initial investments quickly proved insufficient to hours to between 4 and 5 hours—to systematic and handle the demand (table 5.1). Table 5.1. Korean Import and Export Container Volumes, 1980–90 TEUs, thousands Classification 1980 1985 1990 1980–85 1985–90 average average growth rate growth rate Export 403 714 1,348 12.1% 13.6% Import 289 544 1,056 13.5% 15.6% Source: Korea Economic Planning Board 1991. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 63 The Spontaneous Emergence of Off-Dock Container Yards In 1990, the Port of Busan was the only import and export logistics facility equipped with a large-scale wharf with the additional challenge that heavy industrial complexes were concentrated in the port’s Busan- Gyeongnam area (figure 5.1). Figure 5.1. The Gyeongbu Line and Busan Industrial Areas of Korea D E M O C R AT I C PEOPLE'S Kansong REPUBLIC Chorwon Sokcho OF KOREA Yonchon Hwachon Soyang Lake Inje Yangyyang Munsan Chunchon Chunchon Oepo SEOUL Uijongbu Kangnung Hongchon an SEOUL KANGWON Pukh Inchon Inchon Yanpyong Pukpyong-dong Yoryang-ni INCHON Ha KYON GGI Ichon Yoju Wonju n Suwon Sea of Hwangji-dong Japan Ha Chechon n Pyongtaek Ansong Ulchin Chungju CHUNG- Yongju Nak tong Taean CHONGBUK Yongyang Hongsong CHUNG- Chongju Chongju Chomchon Yechon PORT & INDUSTRIAL BELT CHONGNAM Andong Kongju Sangju Yongydok Taechon Taejon Taejon Uisong m Ku Ye llo w TAEJON Yongdong KYONGSANGBUK Pohang Sea Gumi Kunsan Muju Yongchon Iri Taegu Taegu Kum Haje Chonju Chonju Kyyongju Puan CHOLLABUK TAEGU Anui Ulsan Chongju Hapchon ULSAN K E Y I N DU S T R I E S Namwon Naktong Yangsen C APITAL & ECONOMIC H UB Yonggwang KYON GSA N GN AM Changwon Pusan Pusan ELEC TRONIC KWANGJU Kwangju Kwangju Masan Chinhae STEEL Hampyong Yongsanpo PUSAN Sunchon Samchonpo Kosong H EAVY INDUSTRY Mokpo C HOL L A N AM Koje OIL Yosu Namhae Island CH EMISTRY Island Kangjin Kohung AUTOMOBILE Chindo J A P A N MANUFAC TURING MACH INERY Chin Wando Island PETROCH EMISTRY GYEONGBU RAILWAY INDUSTRIAL AREAS KEY CITIES CITIES AND TOWNS Korea Strait PROVINCE CAPITALS Cheju Cheju CHEJU NATIONAL CAPITAL Cheju Island PROVINCE BOUNDARIES Sogwipo INTERNATIONAL BOUNDARIES Source: World Bank Map Design Unit. 64 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Table 5.2. Export and Import Container Handling Status by Port, in 1990 TEUs, thousands Total Busan Incheon Other ports Volume (%) 2,469 2,349 112 8 (100) (95.1) (4.6) (0.3) Source: Korea Economic Planning Board 1991. Table 5.3. Distribution of the Port of Busan’s Import and Export Container Volume by Region, in 1990 TEUs, thousands Total volume Gyeongin area Busan area Daegu area Other Export (%) 1,293 515 402 96 280 (100) (39.8) (31.1) (7.4) (21.7) Import (%) 980 309 246 163 262 (100) (31.5) (25.1) (16.6) (26.8) Total (%) 2,273 824 648 259 542 (100) (36.3) (28.5) (11.4) (23.8) Source: Korea Economic Planning Board 1991. Table 5.4. Distribution by Transport Mode for the Busan to Seoul Capital Area Route, in 1990 TEUs, thousands Total Road Railroad Maritime transport 824 519 290 15 (100%) (63%) (35.2%) (1.8%) Source: Korea Economic Planning Board 1991. The concentration of Korea’s import-export container 1,190,082 square meter capacity among 31 loca- traffic at the Port of Busan and on the Gyeongbu tions—to handle such functions as container storage Expressway caused numerous socioeconomic prob- and customs clearance, among others. lems and made evident the limits of the existing transport and logistics infrastructure. Private, sponta- This spontaneous development and use of ODCYs in neous solutions started to emerge. Busan led to profound inefficiencies in the handling of import and export containers. Import and export As there were no container yards in the conventional containers that went through these ODCYs faced an pier at the Port of Busan, private off-dock container additional cost premium of at least 50,000 to 70,000 yards (ODCY) spontaneously developed—with a Korean won (approximately US$45 to US$60) per COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 65 TEU. An additional effect occurred, in that it took led to more road congestion that disrupted logistics up to 15 to 17 days for the imported containers to companies’ timeliness; these companies had to then be delivered to shippers, while approximately 6,500 move their cargo around the port in advance as their container trucks per day passed through the main timely transport became difficult, which intensified arterial roads around the ODCYs, on average. the congestion around the Port of Busan. The concentration of Korea’s import and export container volumes at the Port of Busan also led Further, the congestion caused by the increase to severe road traffic issues on the Gyeongbu in container and cargo trucks on the Gyeongbu Expressway between Busan and Seoul’s Capital Area. Expressway led to increased logistics lead times and With the double-digit increase of trade traffic, the additional costs, resulting in the decreased quality of transport time for containers between Busan and the import and export logistics services. Seoul Capital Area increased sharply, from 7 hours in 1986 to 14 hours in 1990. The increase in lead times Against this backdrop, the Korean government set caused logistics and transport companies to increase out to develop an inland logistics base concept, their numbers of delivery vehicles, which subse- framed with a centrally designed policy process, to quently led to further increases in the number of con- support a multimodal transport and logistics system. tainer and cargo trucks on the road. This eventually Policy-Making Process to Develop Logistics Facilities in Korea The government of Korea recognized the need for The Basic Plan for National Logistics was estab- a systematic, government-level national logistics lished in 2001 in accordance with article 11 of the plan to properly support the logistics industry in Framework Act on Logistics Policies. This statutory accordance with the nation’s rapid economic growth. plan presented a comprehensive direction for Based on this need, the government established development and a promotional strategy for Korean two national logistics plans: A Basic Plan for National logistics facilities. This was also a basic but top-level Logistics (see table 5.5), and a Comprehensive Plan plan that took precedence over other logistics-related (see table 5.6) for the Development of Logistics plans established under other laws and regulations. Facilities. The former was a master plan for essential Therefore, the Basic Plan for National Logistics national logistics, while the latter was established in covered all land, sea, and air logistics sectors while conjunction with the initial Basic Plan. In other words, presenting a comprehensive developmental, direc- Korea’s national logistics plan was a system in which tional, and implementation strategy for Korean the former and the latter were organically connected. logistics facilities. 66 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Table 5.5. System for the National Logistics and Development Plans by Logistics Facility Top plan Basic Plan for National Logistics Upper plan Comprehensive Plan for the Development of Logistics Facilities Individual plans Comprehensive Mid- to long-term Separate plan for agri- “Integrated freight plan for port com- comprehensive cultural and marine terminal(IFT)” plex development plan for airport products distribution development center “Integrated freight terminal(IFT)” Facility name “Port hinterland” “Airport hinterland” “Agricultural and “Logistics complex” marine products distribution center” “General logistics terminal” Source: Korea Transport Institute (KOTI). The Korean government initially implemented its Currently, Korea’s logistics facilities are being devel- Basic Plan for National Logistics to cover at least a oped based on the Third Comprehensive Plan for twenty-year period, with a revised plan to reflect the Development of Logistics Facilities Until 2022 changing conditions every five years. However, as (CPDLF). The key feature of this plan emphasizes the internal and external environments continued to rational development of an efficient national logistics rapidly change, the Korean government implemented network through a systematic supply of logistics a rolling plan to re-establish its ten-year basic plan facilities, a natural sequel to the focus of the first two every five years, beginning in 2006. After its first Basic plans: preventing redundant and excessive invest- Plan for National Logistics (2001–20) was announced ments. The CPDLF also embraces the establishment and established, the government of Korea provided of policy directions to supply and manage logistics two basic revisions to the Basic Plan for National facilities to address changing policies and industrial Logistics (2016–25). environments. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 67 Table 5.6. Content of the Comprehensive Plans for the Development of Logistics Facilities Classification 1st 2nd 3rd Legal basis Article 4 of the Act on the Development and Management of Logistics Facilities (1st, 2nd) – Search for ways to prevent redundant and excessive investment in logistics facilities and to build an efficient logistics network through the systematic supply of logistics facilities Purpose (3rd) – Rational development for the distribution of logistics facilities and efficiency of logistics systems – Establishment of policy directions for the supply and management of logistics facilities over the next 5 years, in order to meet the changed policies and industrial environments 2008–12 2013–17 2018–22 Period (5 years) (5 years) (5 years) Matters related to: – The supply policy of logistics facilities – The development and designation of logistics facilities Major contents – The functional improvement and efficiency of logistics facilities – The collective grouping of logistics facilities – The construction of a transport network for domestic and international logistics facilities – The environmental conservation management of other logistics facilities Source: Korea Transport Institute (KOTI). The Ministry of Land, Infrastructure, and Transport metropolitan city mayor, a special self-governing city (MOLIT) is responsible for preparing the CPDLF based mayor, a province governor, and/or the governor of on the plans individually prepared by each jurisdic- the special self-governing province (referred to as tion. Once assembled, MOLIT refines the emerging the mayor or governor hereafter). This version of the version of the CPDLF by requesting additional data CPDLF is then deliberated by the Logistics Facilities and research on the development of logistics facilities Subcommittee, in accordance with article 19(1)2 of by jurisdictions as necessary. In addition, the com- the Framework Act on Logistics Policies, prior to prehensive plan is subject to consultations with key announcing its implementation (figure 5.2). agencies, such as the special metropolitan mayor, a 68 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Figure 5.3. Procedure for Establishing the Comprehensive Plan for the Development of Logistics Facilities Source: Ministry of Land, Infrastructure, and Transport (MOLIT). The CPDLF includes an estimation of the supply and The supply and demand estimates for international demand of logistics facilities, including (1) inter- logistics facilities build on individual plans’ demand national logistics facilities, such as port or airport forecasts and existing reported supply as well as hinterlands; (2) integrated logistics facilities, such the demand forecast for the facilities to be sup- as inland container depots (ICDs), integrated freight plied centrally. These estimates are used to predict terminals, logistics complexes, and agricultural and the demand for integrated logistics facilities and marine product distribution centers, among domestic stand-alone logistics facilities. All results take as a logistics facilities; and (3) stand-alone logistics facili- framework Korea’s regions, carefully classified by ties, such as rail container yards. Stand-alone logistics separating the 16 cities and provinces into 42 regions facilities are similar to integrated logistics facilities in according to the National Transportation Database’s their functions, such as container handling, and are 250-zone division system by city, county, and district. thus included as logistics facilities subject to supply Additionally, the demand and required areas for and demand, because they affect the demand for the ICDs and general cargo-handling facilities have logistics facilities. been estimated (estimates procedures are detailed in figure 5.3 and figure 5.4). COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 69 Figure 5.4. Procedure for Estimating the Required Area for General Cargo-Handling Facilities Source: Ministry of Land, Infrastructure, and Transport (MOLIT). A regional supply plan is then established by catego- of logistics facilities by city and province was calcu- rizing the logistics facilities as regional or local. This lated by subtracting the supply forecast for logistics excludes the already available supply area from the facilities from the five-year demand forecast based total required area for inland container- and general on the National Transportation database. However, cargo-handling facilities. Planned supply target facili- problems occurred when the total five-year supply ties should be established around integrated logistics by city and province was set in advance—including facilities by considering the groups of international an inability to meet demand in a timely manner, and domestic logistics facilities. As the unit facilities oversupply, problems in development, and unsold are logistics facilities developed in accordance with volume—due to the lack of verification of real market economy principles, quantitative planning demand. After the total quantity system for logistic management is impossible; supply plans can only be complexes was abolished, the real demand verifica- offered for some facilities, such as railroad container tion system for logistics complexes was introduced to yards, which could functionally overlap with ICDs. only construct logistics complexes when real demand could be verified. Simultaneously, the city- and pro- Prior to the June 2014 abolition of Korea’s total quan- vincial-level authorization of businesses, which had tity system, the total number of logistics complexes operated based on the total quantity system, was by city and province was determined for five years also abolished (figure 5.5). through the CPDLF. Additionally, the total number 70 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Figure 5.5. Policy Changes in Logistics Complexes’ Development Source: Ministry of Land, Infrastructure and Transport (MOLIT). The real demand verification system for logistics The government of Korea further developed its complexes aimed to induce real end-user develop- supply of logistics facilities by legislating the Act ment and minimize the damage to local residents on the Development and Management of Logistics and the public caused by excessive business pro- Facilities to provide a basis for related administrative motions or speculative development, among other and financial support. Administrative support under factors. The most important part of the real demand this law include a simplified authorization agenda verification system is its move-in demand and imple- and authorization process. In accordance with articles mentation capabilities; important factors among its 21 and 30 of this act, authorizations for changes to implementation capabilities include the determining land, such as its shape and quality, are deemed to of land status and financing capabilities. have been granted under the National Land Planning and Utilization Act. MOLIT, city mayors, or provincial ICDs and general logistics terminals estimate their governors can then authorize any construction or demand and create supply plans based on the modification for the logistics terminal operator or CPDLF. The cargo demand and required area are logistics complex designee; alternatively, they can determined in accordance with the standards set by consult with the head of the relevant administrative the government, which then creates regional supply agency or announce such construction project or plans. Consequently, logistics complexes can respond modifications. Additionally, the logistics complex flexibly to demands due to the introduction of the can be designated and developed by applying the real demand verification system. As such, the Korean Special Act for the Simplification of Authorization and government actively manages the development of its Permission Procedures for Industrial Complexes in logistics infrastructure, as it can manage and regulate accordance with article 59(2) of the National Land its supply. Planning and Utilization Act. Such a procedure allows for the pursuit of 29 matters related to authorization and approval through an integrated review that can be completed within six months. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 71 The Inception of Inland Logistics Bases in Korea In the face of congestion issues, inefficiencies, and opened it in January 1997—to expand the import and socioeconomic challenges derived from a rapid export handling capacity in Seoul’s Capital Area; the increased in import and export containers and cargo Yangsan ICD construction started in December 1994, concentrated along a one-country development axe, with operations beginning in April 2000. the government of Korea pursued both port expan- sion and the construction of a network of multimod- The government of Korea adopted its third sector ally connected ICDs. The purpose was to improve development method to ensure its expertise in devel- the container transport system’s efficiency through oping and operating inland container depots. This the Social Indirect Capital Investment Coordination development method involves the government’s pur- Committee under the Economic Planning Board chasing of necessary land; it then selects a third single (currently the Ministry of Economy and Finance). operating entity, which will be guaranteed the right to operate for a certain period of time before returning it The government of Korea also pursued further to the government after this period expires. development of the Ports of Busan and Gwangyang to expand these maritime facilities. It also invested The third sector development method took the form ₩186.2 billion in Korean won (approximately US$150 of a public-private partnership (PPP), through the million) to improve the Port of Busan’s container-han- build-operate-transfer (BOT) approach in particular, dling capacity, and completed the third and fourth which was a somewhat unfamiliar implementation stages in its development in 1991 and 1994 respec- format at the time. Additionally, the government of tively. Such developments secured the nation’s ability Korea laid the foundation for an integrated import to process an additional 2.2 million TEUs. and export logistics services system by granting customs clearance and financial functions to ICDs In parallel, the government of Korea pursued the con- and integrating its computer system with the Port of struction of ICDs that would have the same effect as Busan. The government supported the ICDs so they port expansion, but relatively less expensive and over could operate as not only ODCYs, but also as import a relatively shorter time. The construction of ICDs was and export logistics facilities that perform some port also advantageous, in that it could increase the rail functions (similar to the extended gateway concept transport rate among import and export containers. discussed in the European context). For example, Thus, the government simultaneously built the ICDs by constructing the Uiwang ICD, import and export while expanding its railway infrastructure. cargo for the Seoul Capital Area could be directly delivered to Uiwang from the Port of Busan, and vice Inland logistics depots were completed at the Uiwang versa, while also receiving custom clearance services and Yangsan ICDs in the Seoul Capital Area and in at the ICD instead of the port. Moreover, the Yangsan Busan, respectively, to serve as major facilities to ICD was allowed to collect import and export cargo handle the Port of Busan’s cargo volume. The Uiwang from the Yeongnam and Honam regions and perform ICD in the Seoul Capital Area reorganized what was customs clearance. In constructing the Yangsan ICD, originally a rail freight base in southern Bugok, and it was possible to eliminate Busan’s 31 private ODCYs, started operations in the second half of 1993. The resolving regional traffic problems and reducing government of Korea started construction of the logistics costs in the process. Uiwang ICD’s Terminal 2 in December 1994—which 72 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The Current Level of Logistics Facilities in Korea According to article 2 of the Act on the Development Warehouses and Management of Logistics Facilities, “logistics facilities” refer to: (1) facilities for transport, storage, Regarding the current status of logistics facilities as and unloading; (2) facilities that relate to transport, per the National Logistics Integrated Information storage, and unloading, and intended for processing, Center, 3,635 companies in logistics and warehousing assembly, classification, repair, packaging, label- were registered as of February 25, 2020 (http://nlic. ing, sales, and information and communications go.kr/nlic/WhsStatsWarehouseLocation.action). Of activities; (3) facilities for the common dispersion, these, 1,312 warehousing companies were registered automation, and informatization of logistics; and (4) under the Act on the Development and Management the logistics terminals and logistics complexes (that of Logistics Facilities (table 5.7), while 2,323 ware- is, clusters) where the aforementioned facilities are housing companies were registered under other gathered. Additionally, the act specifics these facilities laws, such as the Harbors Act, Customs Act, Chemical can be classified by function as either unit, inte- Control Act, Food Sanitation Act, Livestock Products grated, or related logistics facilities. This section will Sanitary Control Act, and Food Industry Promotion explain the current status of both unit and integrated Act. According to the distribution by region, 1,689 logistics facilities. (46.5 percent) and 1,946 nonmetropolitan areas (53.5 percent) were in the Seoul Capital Area and Stand-alone logistics facilities non-Seoul Capital Area respectively, with most con- centrated in the former. Regionally, Gyeonggi-do A stand-alone logistics facility is the smallest facility had the most warehousing companies, with 1,216 that conducts individual logistics activities, and (3.5 percent), followed by Gyeongsangnam-do with includes rail container yards, general logistics 429 (1.8 percent). Warehouse registration indicates terminals, home-delivery centers, and warehouses, the Busan and Incheon metropolitan areas had 347 among other facilities. This section discusses the (9.5 percent) and 345 (9.5 percent) such companies operational status of warehouses and rail container respectively, while Gyeonggi-do had the largest dis- yards, which are the most representative of stand- tribution of logistics warehouses among all regions alone logistics facilities. (figure 5.6). This is due to not only the high demand for warehouse handling logistics facilities in the Seoul Capital Area, but also the relatively lower costs to establish warehouses in Gyeonggi-do than in Seoul. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 73 Table 5.7. Operational Status of National Logistics Warehouses, 2020 Location National Harbors Act Customs Chemical Food Livestock Food Total Ration Integrated Act Control Act Sanitation Product Industry (%) Transport Act Sanitary Promotion System Act Efficiency Act Warehouse Port Bonded Storage Refrigirated Livestock Refrigirated warehouse warehouse warehouse warehouse storage warehouse Total 1,312 209 603 153 515 519 326 3,635 100 Seoul 671 52 320 71 232 264 79 1,689 46.5 Other 641 157 283 82 283 255 247 1,946 53.5 Source: Korean National Logistics Integrated Information Center. Figure 5.6. Regional Logistics Warehouse Registrations Region As of 2020, the 1,312 logistics warehouse busi- Sejong nesses registered in accordance with the Act on Daejeon the Development and Management of Logistics Facilities covered a total of 14,708,758 square Jeju Island meters (see table 5.8); the total warehouse area in Daegu the Seoul Capital Area covered 8,000,412 square Gwangju meters, accounting for 54 percent of Korea’s total warehouse area; and Gyeonggi-do accounted Ulsan for 6,827,782 square meters, or 85.3 percent of Chungcheongbuk-do the Seoul Capital Area’s warehouse area. Further, Jeollabuk-do Gyeonggi-do accounted for 46.4 percent of Korea’s total warehouse area, and was the largest among Seoul all regions. Chungcheongbuk-do accounted Gangwon-do for 1,181,271 square meters, followed by Chungcheongnam-do Gyeongsamnam-do with 1,085,805 square meters. Gyeongsangbuk-do Rail Container Yards Jeollanam-do Incheon Korea has 31 rail container yards (958,851 square meters), with a representative rail container yard Busan located at Busanjin Station (table 5.9). Gyeongsangnam-do Gyeonggi-do 1,400 1,200 1,000 800 600 400 200 0 Number of registrations Source: Korean National Logistics Integrated Information Center. 74 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Table 5.8. Logistics Warehouses by Area Classification No. of Businesses Ratio (%) Total area (m2) Ratio (%) Seoul 35 2.7 354,151 2.4 Busan 25 1.9 203,816 1.4 Daegu 23 1.8 137,721 0.9 Incheon 100 7.6 818,479 5.6 Gwangju 32 2.4 228,954 1.6 Daejeon 21 1.6 642,435 4.4 Ulsan 24 1.8 154,506 1.1 Sejong 15 1.1 523,925 3.6 Gyeonggi-do 536 40.9 6,827,782 46.4 Gangwon-do 47 3.6 233,096 1.6 Chungcheongbuk-do 53 4.0 1,181,271 8.0 Chungcheongnam-do 57 4.3 506,947 3.4 Jeollabuk-do 39 3.0 310,268 2.1 Jeollanam-do 60 4.6 902,869 6.1 Gyeongsangbuk-do 67 5.1 521,316 3.5 Gyeongsangnam-do 158 12.0 1,085,805 7.4 Jeju Island 20 1.5 75,417 0.5 Total 1,312 100.0 14,708,759 100.0 Source: National Logistics Integrated Information Center. Table 5.9. Status of Rail Container Yards Start of Handling capacity Classification Area (m2) Remarks operation (TEUs, thousands per year) No.1 Terminal 274,008 7/20/1984 921 No. 2 Terminal 145,042 1/1/1997 487 Obong Rail yard 9,326 11/6/1909 31 Subtotal 428,376 1,439 Complex 1 74,413 18/9/1972 250 Complex 2 17,730 28/4/1993 59 Busanjin Complex 3 30,307 12/5/1988 101 Subtotal 122,450 410 Dongsan 15,630 23/1/1989 52 Sapgyo 16,500 28/11/1908 55 COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 75 Start of Handling capacity Classification Area (m2) Remarks operation (TEUs, thousands per year) Bugang 7,003 14/1/1994 23 Rail transport suspended Dongiksan 16,500 21/5/1911 55 Maepo 4,233 1/11/1906 14 Rail transport suspended Complex 1 10,190 13/5/1913 34 Sintanjin Complex 2 9,600 1/9/1917 32 Subtotal 19,790 66 Okgye 8,834 30/7/1916 29 Korea Express 4,750 29/12/1994 16 Heungguksa KORAIL 650 29/7/1906 2 Subtotal 5,400 18 Yakmok 7,508 3/2/1995 25 Yakmok Chilgok 28,632 1/2/1905 96 Subtotal 36,140 121 Kukbo 8,942 9/19/1995 30 Rail transport suspended Chungju KORAIL 8,687 1/1907 29 Rail transport suspended Subtotal 17,629 59 Jungju 7,664 1/15/1907 25 Okcheon 5,449 1/10/1996 18 Ulsan Port 10,846 3/15/1996 36 Gaya 13,683 4/1/1996 45 Rail transport suspended Sinchangwon 18,980 1/10/1997 63 Rail transport suspended Onsan 19,060 10/1997 64 Rail transport suspended Apo 4,516 7/1/1998 15 Rail transport suspended Sojeongri 5,017 12/17/1999 16 Gunsan 16,500 2/18/1908 55 Doojeong 12,568 7/1/1902 42 Rail transport suspended Seokpo 1,500 3/7/1903 5 Gwedong 12,740 9/10/1909 42 Donghae 1,611 5/30/1910 5 Incheon 6,380 10/4/1911 21 Rail transport suspended Busan Sinhang 17,210 11/1/1912 57 Rail transport suspended Gwangyang Port 59,657 12/30/1998 200 Rail transport suspended Singwangyang Port 9,500 7/8/1910 31 Munsu 3,530 6/10/1913 11 Hanam 33,935 11/20/1913 114 Rail transport suspended Total 958,851 3,206 Source: Internal data provided by the Korea Railroad Corporation. 76 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Integrated Logistics Facilities airports. It has the same import and export clearance facilities as ports while connecting railway-road Integrated logistics facilities involve two or more modes of transportation to include ICDs and IFTs. The stand-alone logistics facilities installed together. It ICD is an inland logistics base that provides storage includes an integrated freight terminal (IFT), ICDs, and handling services for containers. Further, the IFT and a logistics complex. is equipped with a cargo-handling center, delivery center, and multiple warehouses, and handles such Inland logistics base domestic general cargo as home shopping and parcel products. Approximately 10.7 million square meters The inland logistics base (figure 5.8) is a logistics of goods have been supplied through the nation’s five facility capable of connecting two or more modes major inland logistics bases in the regions of Seoul of transportation, such as roads, railways, ports, or Capital, Busan, Honam, Central, and Yeongnam. Figure 5.7. Korea’s Five Largest Regional Inland Logistics Bases D E M O C R AT I C PEOPLE'S Kansong REPUBLIC Chorwon Sokcho OF KOREA Yonchon Hwachon Soyang Lake Inje Yangyyang Munsan Chunchon Chunchon Oepo SEOUL Uijongbu Kangnung Hongchon an SEOUL KANGWON Pukh Inchon Yanpyong Pukpyong-dong Yoryang-ni INCHON Gunpo-si Ha Seoul Metropolitan Area: Uiwang-si Wonju n Ichon Yoju Gyeonggi, Uiwang-si, Suwon Sea of Gunpo-si Hwangji-dong KYO N GGI Japan Ha Chechon n Pyongtaek Ansong Ulchin Chungju CHUNG- Yongju Nak tong Taean CHONGBUK Yongyang Hongsong CHUNG- Chongju Chomchon Yechon CHONGNAM Andong Yeongnam Area: Central Area: Kongju Sejong-si Yongydok Sejong-si, Bugang-myeon Taechon Sangju Geyongbuk, Chilgok-gun Bugang-myeon Uisong m Taejon Ku TAEJON Yongdong Gumi KYONGSANGBUK Pohang Kunsan Iri Muju Chilgok-gun Yongchon Taegu Kum Haje Chonju Kyyongju Puan TAEGU CHOLLABUK Yel l ow Anui Chongju Hapchon Ulsan ULSAN Sea Namwon Naktong Jangseong-gun Yangsan-si Yangsen-si Busan Area: Yonggwang KYO N GSAN GN AM Gyeognam, Yangsan-si KWANGJU Masan Changwon Kwangju Chinhae Pusan Honam Area: Hampyong Yongsanpo PUSAN Sunchon Kosong Jeonnam, Jangseong-gun Samchonpo Mokpo C HO L L AN AM CHO Yosu Namhae Koje Island Island Kangjin Kohung Chindo J A P A N Chin Wando Island LARGEST LOGISTIC BASE PROVINCES KEY LOGISTIC BASE LOCATIONS CITIES AND TOWNS K o r e a St r ai t PROVINCE CAPITALS Cheju Cheju CHEJU NATIONAL CAPITAL Cheju Island PROVINCE BOUNDARIES Sogwipo INTERNATIONAL BOUNDARIES Source: World Bank Map Design Unit. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 77 The Uiwang ICD and Gunpo IFT were established in imports and exports. As an inland port connected to the Seoul Capital Area and are currently in operation the Port of Busan, the Yangsan ICD is the area’s larg- (table 5.10). The Uiwang ICD supplies containers to est integrated container and cargo logistics base that the Seoul Capital Area, and is Korea’s core hub in performs such functions as customs clearances, the charge of the customs clearances for export-import storage and arrangement of cargo, and inland trans- containers involving cargo transport, storage, and portation, among others. Additionally, the Yangsan unloading. It is the largest container base in the Seoul IFT supervises a wide delivery area in the southeast Capital Area, and can handle 1.37 million TEUs per region, including the cities of Busan, Ulsan, and year. The Gunpo IFT is a logistics hub in the Seoul Gyeongnam. Although inland logistics bases were Capital Area that handles domestic cargo at an created in the central region, the Yeongnam and optimal delivery point which could host a broadband Honam regions lack bases to handle containers; thus, delivery network. In the Busan area, the Yangsan ICD the demand for services from private logistics com- and ITF were built to operate in connection with the panies has recently increased to handle increased Port of Busan, which is the nation’s largest port for courier volume seen among all regions. Table 5.10. Status of Supply and Operation of Inland Logistics Bases Area: TEUs, thousand square meters; container handling capacity: TEUs, thousands per year Classification Terminal name/oper- Handling Operating performance ating company capacity 2014 2015 2016 2017 2018 SCA Area: 304 79.8% 87.7% 93.2% 96.7% 98.1% Gunpo IFT/Korea (243) (266) (283) (294) (298) Integrated Logistics (Corp.) Area: 311a 96.3% 98.5% 99.3% 99.4% 99.6% (300) (307) (309) (310) (310) Uiwang ICD/ Container: 1,370 73.6% 71.9% 68.5% 64.9% 64.6% Uiwang ICD(Corp.) (1,008K) (985K) (939K) (890K) (885K) BMA Yangsan IFT/ Area: 177 78.9% 89.9% 89.8% 96.9% 94.2% Korea Integrated (140) (159) (159) (172) (167) Logistics (Corp.) Yangsan ICD/ Container: 1,369 13.0% 12.3% 15.0% 15.1% 13.9% Yangsan ICD (Corp.) (139K) (131K) (160K) (161K) (149K) Honam Area: 44 87.0% 94.6% 95.8% 99.6% 99.5% Honam IFT and ICD/ (80) (87) (88) (91) (107) Korea Integrated Logistics (Corp.) Container: 340 17.6% 23.2% 17.1% 15.3 15.4 (62K) (81K) (60K) (53K) (54K) Central Area: 92 80.0% 76.7% 77.7% 94.6% 95.7% Central IFT and ICD/ (35) (34) (34) (42) (42) Korea Integrated Logistics (Corp.) Container: 350 – – 1.6% 2.2% 1.2% (5K) (8K) (4K) Yeongnam Area: 146 100.0% 80.1% 87.4% 91.8% 87.0% Yeongnam IFT and ICD/ (146) (117) (127) (134) (127) (Corp.) Yeongnam Area Integrated Freight Container: 330 3.6% 4.6% 1.2% 0.6% 0.4% (12K) (15K) (4K) (2K) (1.4K) Area: 1,069b 87.8% 90.3% 93.2% 97.0% 96.4 IFT operating rate (excluding Gunpo (943) (970) (1,001) (1,042) (1,035) Total expansion: 758) Container 35.3% 35.0% 33.8% 32.2% 31.6% ICD transport results 3,759 (1,220K) (1,212K) (1,168K) (1,114K) (1,093K) Source: Ministry of Land, Infrastructure and Transport (MOLIT). Notes: ICD = inland container port; IFT = integrated freight terminal; KFT = SCA = Seoul Capital Area; BMA = Busan Metropolitan Area; K = thousand; TEU = twenty-foot equivalent unit. a. Including Gunpo expansion; b. Not considering changes in ICD usage. 78 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The demand for general logistics facilities, such as customs clearance, storage, sales, and information delivery centers, has increased due to the increased processing, among other functions. The objective is to demand for everyday logistics, such as e-commerce improve efficiency in Korea’s logistics system through and parcel services. Thus, as port hinterlands the collective grouping of logistics facilities. expanded—such as in Busan’s New Port—IFTs’ operat- ing rate soared, from 87.8 percent in 2014 to percent As of February 2020, 47 logistics complexes were in in 2018; in contrast, the ICD operating rate decreased, operation (16 public and 31 private), with 7 under from 35.3 percent in 2014 to 31.6 percent in 2018. construction, and 17 that have passed a verification process (table 5.11). All logistics complexes that have Logistics complex successfully passed this process are private invest- ment projects related to the rapidly increasing des- In addition to the inland logistics base, the represen- ignation of logistics complexes in the Seoul Capital tative integrated logistics facility includes the logistics Area, as the demand for everyday logistics in urban complex, or land with a group of facilities designated areas has rapidly increased. Domestic logistic com- and developed to collectively install and foster logistics plexes have been increasingly developed by private complex facilities and support facilities. This complex rather than public developers since the 2010s; of all provides various transportation, collection, unload- domestic logistics complexes, 66 percent have been ing, classification, packaging, processing, assembly, developed using private capital. Table 5.11. Status of Logistics Complexes Classification Number Capital Progress status Under construction 1 Public In operation 15 Subtotal 16 Passed verification 17 Private Under construction 6 In operation 8 Subtotal Total 31 Total 47 Source: Korean National Logistics Information Center. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 79 General Logistics Terminals Starting with the Dongbu Logistics Terminal in Seoul in the 1970s, 34 locations were designated as general logistics terminals by 2012, with a supply area of 1.531 million square meters of total site area and 498 square meters of building area (table 5.12). Table 5.12. Operation and Development Status of General Logistics Terminals Construction Architectural No. Area Name Area (m2) approval date Operator area (m2) (m/d/yyyy) Total 34 Places 1,531,579 498,088 1 Seoul Korea IFT 96,017 24,792 3/31/1990 (Corp.) Halim 2 Seoul Seobu Truck Terminal 112,111 41,640 9/29/1979 (Corp.) Seobu Truck Terminal 3 Seoul Dongbu Logistics 19,463 4,465 8/101975 (Corp.) Shinsegae Terminal 4 Busan Busan Logistics 85,667 11,753 11/12/1992 Busan Logistics Terminal Terminal (Corp) (Corp.) 5 Daegu Seobu Logistics 70,022 15,991 1/12/1996 (Corp.) Daegu Logistics Terminal Terminal 6 Daegu Bukbu Logistics 9,878 2,016 4/21/2001 (Corp.) Gyeongbuk Terminal Distribution Industry 7 Daegu Dongbu Logistics 34,510 7,822 1/20/2006 (Corp.) Dongdaegu Cargo Terminal Terminal 8 Incheon Yeongchang Cargo 30,460 5,474 2/16/1983 (Corp.) E-tech Truck Terminal Construction 9 Incheon Incheon Hanjin 43,538 12,983 4/12/1994 (Corp.) Hanjin Logistics Terminal 10 Incheon Incheon Truck 45,985 1,879 2/4/1999 (Corp.) HJLogistics Terminal 11 Gwangju Gwangju Cargo 35,765 5,997 3/4/1983 Gwangju Cargo Terminal Terminal (Corp.) 12 Gwangju Pungam Logistics 39,304 18,994 7/29/2004 (Corp.)LST Terminal 13 Daejeon Jungbu Daejeon 59,556 22,074 12/3/2001 Jungbu Daejeon Logistics Logistics Terminal Terminal (Corp.) 14 Daejeon Daejeon Cargo 60,242 36,561 9/20/1990 CJ Korea Express (Corp.) Terminal 15 Ulsan Ulsan Cargo Terminal 41,593 13,456 5/18/1995 (Corp.) Ulsan Cargo Terminal 16 Gyeonggi Hanjin Cargo Terminal 9,395 3,331 9/1/2001 (Corp.)Hanjin 17 Gyeonggi Ansan Cargo Terminal 42,946 19,359 4/14/1995 Daekyung TLS 80 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Construction Architectural No. Area Name Area (m2) approval date Operator area (m2) (m/d/yyyy) 18 Gyeonggi Ansan Logistics 35,592 3,826 12/8/1999 (Corp.) Hanjin Terminal 19 Gyeonggi Pyeongtaek Logistics 16,473 4,076 4/29/2009 Moorim Transport (Corp.) Terminal 20 Gyeonggi Jungbu Cargo 160,086 98,767 1/7/1999 (Corp.) Jungbu Cargo Terminal Terminal 21 Gyeonggi Sihwa Cargo Terminal 50,841 8,513 7/3/1997 (Corp.) Korea Express 22 Gyeonggi Hansaem Logistics 60,086 47,845 10/17/2012 (Corp.) Hansaem Terminal 23 Gyeonggi Seobu Cargo Terminal 16,500 4,822 7/15/1996 (Corp.) Seobu Cargo Terminal 24 Chungbuk Chungju Cargo 19,654 4,776 7/8/1989 (Corp.) Chungju Cargo Terminal Terminal 25 Chungbuk Boeun Cargo Terminal 13,127 568 1/24/1996 (Corp.) Hyeongje Industrial 26 Chungnam Asan Logistics 21,475 545 7/10/1997 (Corp.) Asan Shipping Terminal Cargo Loading 27 Chungnam Jungbu Logistics 33,896 9,821 5/4/1999 (Corp) Jungbu Cargo Terminal Terminal 28 Jeonbuk Iksan Integrated 23,924 4,674 1/9/1999 (Corp.) Siniksan Cargo Cargo Terminal 29 Jeonnam Yeochun Cargo 11,131 2,155 3/16/1999 (Corp.) Yeochun Cargo Terminal Transport 30 Jeonnam Yeochun Truck Cargo 16,518 4,565 12/29/2000 (Corp.) GS Caltex Terminal 31 Jeonnam Yeosu Logistics 51,268 39,260 5/20/2011 (Corp.) City Industrial Terminal Development 32 Gyeongbuk Samil Logistics 109,833 5,845 6/7/2011 (Corp.) Samil Terminal 33 Gyeongbuk Gumi Logistics 33,148 6,716 3/25/1996 (Corp.) Gumi Cargo Terminal Terminal 34 Gyeongnam Jinju Cargo Terminal 21,575 2,727 1/31/1987 (Corp.) Jinju Cargo Terminal Source: Korean National Logistics Information Center. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 81 Joint Collection and Delivery Center Joint Wholesale Logistics and Distribution Centers for Small- and Medium-Sized Distribution Enterprises The Ministry of Trade, Industry, and Energy des- ignated three joint collection and delivery centers As of December 2018, Korea had 39 joint whole- under the Distribution Industry Development sale logistics and distribution centers, with a total Act: Pyeongtaek Doil, Ulsan Jinjang, and Yongin gross area of approximately 10,000 square meters Dongcheon (table 5.13). Pyeongtaek Doil and Ulsan (table 5.14). Of these 39 centers, 35 are currently Jinjang are located in logistics complexes, and are cur- operating and 4 are under construction: Jeonnam rently in operation. However, the designation for the Goheung, Chungnam Seosan, Gyeongnam Gimhae, Yongin Dongcheon joint collection and delivery center and Gyeongbuk Pohang. Most are operated by local was revoked in March 2018, six years after receiving supermarket cooperatives and supply goods to local the designation, due to its nonconformity with facility supermarkets. standards and usage criteria. The Incheon Logistics Center in Oryu-dong received its designation as a joint collection and delivery center in 2016, and was built in the Incheon Ara Waterway Logistics Complex. Table 5.13. Status of Joint Collection and Delivery Centers Designation Site area Business Name Location Operator date Hosting facility (m2) period (m/d/yyyy) Pyeongtaek Doil-dong, 201,975 Pyeongtaek City 8/5/2005 2005–07 Inside the logistics Doil Pyeongtaek, Hall complex Gyeongggi-do Ulsan Jinjang Jinjang-dong, 27,554 (Corp) KCC 1/8/2010 2010–11 Inside the logistics Ulsan complex Incheon Oryu Oryu-dong, 25,510 Daeshin Jeonggi 21/9/2016 2016–18 factory, loading dock, Incheon Shipping (Corp) warehouse, or other facility Source: Ministry of Trade, Industry, and Energy Republic of Korea. Note: Five collection and delivery complexes (Busan, Daegu, Gwangju, and Seoul Capital Area Zones I and II) were created in October 1988 under the Five-Year Plan for the Promotion of Wholesale and Retail Businesses, and are currently in operation. Table 5.14. Status of Small and Medium-Sized Distribution Centers by City and Province Gyeongnam Gyeongbuk Chungnam Chungbuk Gangwon Gyeonggi Gwangju Jeonnam Daejeon Jeonbuk Incheon Daegu Busan Seoul Total Area Jeju centers No. of 1 3 1 1 1 1 8 3 3 (1) 5 3 (1) 4 (1) 4 (1) - 1 39 (4) Source: Joint Wholesale Logistics and Distribution Centers for Small and Medium Distribution Enterprises: Ministry of Trade, Industry, and Energy, Republic of Korea. Note: The number of centers under construction are denoted in parentheses. 82 MOBILITY AND TRANSPORT CONNECTIVITY SERIES COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 83 6. Lessons Learned from the European and North American Experience 84 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The Different Types of Logistics Clusters The term logistics clusters, as used in the title of The main distinction between ILCs lies in their func- this publication, has no commonly accepted defi- tions and ambitions in serving supply chains. On nition, though “cluster” implies a high presence of one end of the spectrum, the inland hubs and inland logistics services provision. Some interpret cluster to gateways for international trade have roles reaching be related to a certain area while others interpret it far beyond the needs of their immediate region. as group of organizations involved with logistics. In Seaport satellite ports and other inland ports are also literature and practice, many alternative terms and part of international supply chains, adding capacity to definitions are applied, for example for logistics zone seaports and support them by reducing road traffic in or center, inland port, freight village, and logistics the ports during congested hours. On the other end hub, and often interchangeably. of the spectrum are logistics centers, serving pri- marily the needs of the surrounding region, such as In order to include important lessons in the most consolidating and distributing local freight. The most comprehensive way, this lessons learned chapter will common ILCs, in urban areas, serve local interests not follow a strict definition. The prime focus, how- by reducing heavy goods vehicle traffic and avoiding ever, will be on the “territorial” interpretation, and conflicts of land use. ILCs designed to serve a specific for that reason the term logistics centers is used. A industry of a region and connect to regions active in logistics cluster refers to bordered territories under a the same supply chains provide another example, specific management entity. The focus here, as in the specifically in the supply chains of automotive and study, will also be on integrated logistics centers chemicals industries. (ILC), which are logistics clusters well-connected to the multimodal transport network, and therefore also A common principle shared by all logistics centers is to inland locations. This excludes the often sizeable their role in the (de)consolidation of cargo flows. It logistics territories adjacent to maritime ports and is important to recognize the different positions in international airports and logistics cluster connected supply chains—such as adding value or distributing only to road infrastructure. imports versus channeling exports—in the transport systems. In addition, distinctions between ILC roles are fluid and ILCs could have the characteristics of more than one type. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 85 How to Ensure Multimodal Connectivity The foundation of the ILC’s multimodal connectivity and travel times and is a risk to punctuality. The is the presence of a good transport infrastructure compatibility with seaport infrastructure needs to be network. Even though this criterion seems obvious, assessed case by case. For example, the Port of Los in practice this network is not always sufficiently Angeles has a near dock facility for full trains of up addressed. On a most basic level, it is necessary to to 2,400 meters length, which excellently serves few verify path-of-way dimensions for multimodal traffic large-scale inland locations, such as the CenterPoint in the connecting infrastructure. In the European Intermodal Center (CIC) near Chicago. The downside, Union (EU) for example many rail routes are not however, is that the Port of Los Angeles cannot opti- suited for certain types of multimodal cargo, mostly mally serve shorter trains, which would be attractive because of the height of loading units (high cubes for calls at smaller inland terminals and for shuttle and high-volume semitrailers) on wagons. Also, in services over short distance. The Port of Rotterdam some examples, bridges appear to be too low for and other European seaports have rationalized their barges carrying more than three layers of containers, internal railway networks and concentrated container or become a constraint with high water levels or transshipments into a limited number of railway when using high-cube containers. terminals, which resolved bottlenecks in the ports internal railway systems. These ports discourage the A second important aspect is the layout and capac- use of short trains, because it would negatively affect ity of the transshipment facilities, on both ends of their infrastructure utilization rates. the multimodal journey. In the ILC, rail terminals capable of receiving full trains are highly preferable Inland barge traffic presents a particular case in above suboptimal solutions, which require shunt- seaports. Barges could be served on dedicated barge ing between the terminal and a marshaling yard. quays; however, more common is that they use the This makes multimodal transport operations more same quays and handling equipment as the ocean competitive, improves the capacity of the terminal, vessels. Heavily utilized seaport terminals lead to and avoids fragmented traffic on the railway stretch long and unpredictable waiting times for inland between the terminal and marshaling yard. In the barges. With ocean and barge traffic steadily increas- recent past, many rail yards with multiple short load- ing, the Port of Rotterdam has almost continuously ing tracks closed down and were replaced by facilities sought solutions to handle this problem, together outside of the urban areas. Several of the freight with stakeholders in the transport chain. One of villages (FVs) in Germany, for example, originated in the more effective solutions involves increasing the such relocation. call sizes of barges to reduce the number of barge calls, which addresses hinterland operators to (de) Transshipment facilities in the ILC must coincide consolidate container batches from and into barges with the facilities on the other end, usually seaports. in inland terminals. Shorter train lengths in the ILC will compromise the efficiency of entire multimodal service. If differences Land is often scarcely available and, in such case, it are extreme, an intermediate deconsolidation in a will be important to prioritize the locations for trans- marshaling yard will be needed, which adds to costs shipment in transport planning. This is, for example, 86 MOBILITY AND TRANSPORT CONNECTIVITY SERIES done by the German state of Nord Rhein Westphalia. These examples show that feasibility of multimodal The state actively engages all municipalities adjacent transport solutions in connection with seaports is to core infrastructure to prevent developments near determined to a large extent by features other than pre-identified terrains that could lead to conflicts door-to-port cost comparison. These sample cases of use with logistics activities, for which expansion have almost entirely eliminated delays caused by is inevitably needed. In a similar way, the Dutch congestion from their operations. Many ports value corridor-approach supports only those spots holding reliability above speed; moreover, terminals—and long-lasting development potential for multimodal the adjacent warehouses—often act as buffers in the transport services and logistics services. supply chain, between production and dispatch or between seaport release and distribution. Before investing, a convincing business case should prove viability of the foreseen multimodal transport The multimodal solution for Heineken was not a services, with no clear rule deciding on, for instance, result of market forces only; the redesigning of the the minimum distance between seaports and inland logistics processes also involved many stakeholders terminals. Literature refers to break-even distances and even persuaded Port of Rotterdam to co-invest for multimodal transport solutions of 700 kilometers in the inland terminal. The port invested because in Europe and 700 miles in the United States; to the proposed solution contributed to reducing the become competitive, multimodal solutions should, port’s congestion. Therefore, understanding both the in theory, be situated further apart than these stated context and the stakeholder interests are important distances. Practice, however, proves otherwise. The for assessing a solution’s potential. The multimodal largest client of the Virginia Inland Port, Home Depot solution would not even be considered if the seaport DC, is located approximately 12 kilometers from the were already free from road congestion or if the cli- terminal, while a direct road trip to Virginia’s seaport ent had only a small number of containers for export. complex is about 300 kilometers. In Europe, many of the multimodal services in connection with sea- An important comment to the lessons from ILCs ports, railways, and barges, are far closer than 500 in Europe and North America: Their successes are kilometers. None of the terminals in the Netherlands mainly found in ILCs connected with seaports with lies more than 250 kilometers from the Port of high throughputs. The examples include Port of Rotterdam. An extreme example is the Alpherium ter- Virginia, which currently handles about 3 million TEUs minal, through which the brewing company Heineken per annum, while all other seaports under study had routes its exports. The terminal is 13 kilometers by throughputs well above 5 million TEUs. This reflects road from the brewing facility, while the direct dis- the reality of European and North American practice, tance by road to the seaport’s terminals is just over where smaller seaports have lower success rates in 70 kilometers. developing multimodal transport to the hinterland. Possible explanations include that these smaller ports are less often confronted with land-use constraints and seaports players are less inclined to shift part of their businesses to inland locations. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 87 How to Ensure Local and Supply Chain Integration of the ILC The optimal situation would be to set aside land for location. This trade and transport facilitation logistics services in the direct vicinity of one or more comprises a vital part of what makes an inland ter- cargo terminals, to avoid extra costs from longer minal attractive to clients. Without it, multimodal drayage distances and congested traffic around the transport solutions will lose much of their com- terminal. This could work quite well in the greenfield petitiveness to road transport, since clients prefer solutions for AllianceTexas and CIC. Logistics service to avoid seaport-based customs procedures and providers tend to prefer locations near cargo termi- the handover of cargo ownership, which increases nals outside of urban centers, rather than locations container dwell times and adds to seaport con- near city centers and central business districts. gestion problems. This facilitation of trade and transport is common in the EU and is also key to In cases where land is scarce, logistics sites should the success of the Virginia Inland Port (VIP). be well-connected to the terminal to facilitate access to heavy goods vehicles. Travel distance between the • Communication between all stakeholders in the LOGISTICS CLUSTER and the terminal is more critical logistics chain must be efficient and effective; ILCs if the distance covered by the multimodal transport and their inland terminals have a role in this. If the service is short. When an ILC has a hub function with ILCs absorb functions previously performed in the onward multimodal transport, facilities for cargo seaports, for example, the previously mentioned cross-docking need to be located as close as possible customs procedures and transport facilitation, to the terminal. they must also align with existing information and communication protocols in the logistics chains— If land is scarce, an ILC can be subdivided into mul- such as single windows for customs and port tiple sites, as done in Duisburg. In practice, many community systems for information exchange and clients of the inland terminals are located at some administrative handlings between business and distance outside of the logistics center, which sup- government authorities. In addition, ILCs must ports this idea. meet stakeholder requirements in supply chains and offer the desired visibility and traceability of Several soft measures are important to the success of load units and cargo. With digitization a work in the seaborne multimodal transport chain, including progress, it’s especially important for ILC to fully the following: comply with these guidelines. • The inland location should have the potential • On an operational level, ILCs should optimize and to handle customs and multimodal transport manage local heavy goods vehicle (HGV) traffic, documents, such as bills of lading. Together, such as using booking and reservation systems to these imply containers could move uninterrupted avoid congestion at terminal gates. Lessons can between the inland facility and the overseas be taken from systems applied in seaports. 88 MOBILITY AND TRANSPORT CONNECTIVITY SERIES How to Promote ILCs and the Use of Multimodal Transport Connections ILCs and their multimodal connections will sell them- on two pre-identified corridors providing the most selves once they offer conditions for efficient and contributions to the dual national interests of high-quality logistics operations. Moreover, tenants improving connectivity and expanding multimodal and users are also stakeholders, who also have an transport supply—which also means investments on interest in good utilization of ILCs. Other players in other corridors will likely not receive cofunding from the supply side of the multimodal transport chain national sources. have intrinsic motives for success as well as the connected seaports (reducing congestion), seaport The set of policy instruments that could further terminals (preferring large scale operations), ocean promote the use of multimodal transport facilities lines (reaching into the hinterland), road operators is limited in both the EU and the United States. For (avoiding congestion) and society as a whole, which example, interventions in pricing (such as operational benefits from the reduced negative impacts of trans- subsidies and levies) are not applied, because they port (air pollution, greenhouse gases, noise, traffic have no legal basis in the context of the market econ- accidents, and congestion) and from increased gross omies. Even if legally possible, such measures risk domestic product (GDP) and employment. removing incentives for efficient operations, which in the long term would affect competitiveness. Because governments fund infrastructure, they can to some extent control the shift toward the desired Local-level governments shine in local infrastructure multimodal supply. The EU and European member and land use, with local authorities deciding on the states prioritized the improvement of railway and location of the ILC and providing adequate road inland waterway transport infrastructure, because access to the proposed facility. For example, many of their social advantages. For example, the national of the German FVs are initiated by municipalities, government of Germany will cofund the construction with the goal of improving their connectivity to the of transshipment terminals, provided the project multimodal transport network, while also reducing proposal presents a solid business case. American heavy goods traffic in vital parts of their urban federal programs also prioritize cofunding of road infrastructure. Consequently, clustering of logistics infrastructure in connection with multimodal trans- services in locations some distance away from other port services, though railways in North America are urban functions serves as a tool for cities to minimize privately owned and therefore not part of these conflicts in land use. programs. The Netherlands prioritizes investments COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 89 Cooperation between Public and Private Sectors The ILCs assessed here all received significant, lead- In order to firmly embed the facilities in their respec- role contributions from various layers of government tive regions, the Texas and Illinois projects required entities as well as from the private sector. In the cooperation and coordination with many layers of case of the two largest ILCs in North America— government to secure and maintain good road con- AllianceTexas and the CIC—private entities took the nections for drayage services, and obtain acceptance leading role in development, while the business and permits for the facilities which, because of their development in the VIP was led by a public initiative. scale, have substantial impacts on their environment. In all European examples, the lower government The local and higher-level governments, as owners levels have held the dominating roles in the develop- responsible for road and other infrastructure, were ment, however all operated in close coordination with motivated to facilitate these developments because higher public levels and with the private sector. of their great social advantage, such as the alleviation of urban traffic, the improved connectivity of the Both mainly private-driven, the large-scale region, the attractiveness to logistics companies to AllianceTexas and CIC were developed, respectively, settle, and the knock-on effect to other industries. on greenfield and brownfield territory, with abundant land availability and low acquisition costs. The proj- In the European examples, governments have ects could establish when transport demand became assumed larger roles. One main reason for this apparent. For AllianceTexas, the initial lot concerned is that the developments take place in urbanized air cargo handling—transferred from a neighboring environments with major space constraints. In these airport—followed closely by a Class I railroad forced environments, any investment in transshipment to relocate its facility away from a nearby urban loca- capacity and in logistics zones would have great tion. The venture, therefore, provided a welcomed impacts on the use of road infrastructure, causing solution to a much-needed restructuring of already congestion, and on the environment. They are also existing traffic in the region, along with the capa- likely to encounter potential conflicts of use and thus bility of starting operations with substantial traffic block development options for residential, leisure, or volumes. Meanwhile, the connectivity created by the nature purposes. The lower-level governments have airport and the rail transshipment terminal became taken a cautious approach and sought close coop- key factors for the many logistics service providers eration with all stakeholders. In Germany and the choosing to settle in the ILC. The development of Netherlands, rather than a top-down approach from CIC outside of Chicago included a major expansion the national level, the local governments typically of rail transshipment capacity in the region, and can take the lead, as they are most aware of local inter- be viewed as part of a major restructuring project ests and development opportunities. for alleviating congestion in the urbanized region, together with capacity expansion and efficiency improvement of the railway services connecting to the west coast seaports. 90 MOBILITY AND TRANSPORT CONNECTIVITY SERIES In the example of Duisburg, the publicly owned and socially agreed objectives. For long-term sus- Duisport organization has been leading the develop- tainability, Duisport also engages in securing the ment. Duisport, principally a commercialized version presence of a qualified work force, in encouraging of the previous port authority, was established to safe operations, in innovating projects, and providing revitalize the Port of Duisburg and then develop support to tenants in securing required permits, and the port into an important logistics hub, with the sometimes even in supporting tenants’ business objective of restoring and enhancing employment. development. Duisport also leads missions and closes The port had to cope with the decay of the steel and deals with counterparts in corridor development. mining sectors, its most important clients. Decision makers had reasons to be confident of the port’s The Dutch ILC in Venlo also has the advantage of potential, based on the excellent location in relation good infrastructure connectivity. Until recently, its to seaports and economic centers, excellent infra- multimodal connections have been mainly west- structure connections, and the availability of land. bound, via the Port of Rotterdam, though east- and The first objective of Duisport was to attract new southbound connections are increasing. The region business and establish new multimodal connections, has a long history of logistics services providers, well along with the subsequent, and successful, internal rooted in the region, and the ILC has been successful strengthening of the port. The role Duisport took in attracting, for example, several companies that was exceptional in the European contexts in which, use Venlo as bases for European distribution. The at the time, inland ports tended toward more passive increase of logistics services in Venlo also provides marketing. Instead, Duisport chose to follow a single the foundation for further expanding the multimodal strategy where multimodal transport is central and connections. serves as the focus of the port’s long-term devel- opment potential. The main role of Duisport, then, The approach in Venlo has many similarities to is to create optimal conditions for multimodal and Duisport, except on a smaller scale. The municipal- transshipment companies to establish and operate. ity of Venlo, and in latest expansions jointly with The port strives to develop logistics zones near or neighboring governments, created management well-connected to transshipment facilities and to companies out of their logistics zones, tasking them maintain a high level of coherence within the inland with development, marketing, and management port system. Investments in logistics assets such as during the exploitation phase of the terrain. Though warehouses, terminals, and transport, are covered by publicly owned, these entities do have institutional- the private sector. Only by exemption does Duisport ized dialogue platforms (for example, Smart Logistics step in, for example, to finance port-strengthening Centre Venlo) in which stakeholders from the logistics services not provided by the private sector. and other business communities are represented. These platforms support the ILC management entity Duisport’s entrepreneurial approach is combined in its mission, for example, by activating their own with a long-term social responsibility to sustain the business networks. The cooperation also works on strong position of the port; impacts of investments broader challenges, such as promoting relations and other decisions are measured against long-term with the educational sector for securing a strong, COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 91 prepared labor force, and on social responsibility for the purpose of local goodwill. All are meant to provide confidence to current and potential tenants about the ILC’s current competence and their long- term commitment to the ILC’s success. The Netherlands has about thirty self-proclaimed logistics hotspots and even more inland transship- ment terminals, indicating the strong presence of the transport and logistics sector in the country. It is also an indicator of the manifold number of developments in the country, all facilitated by the respective local public authorities, though not centrally planned or coordinated. The competition between hotspots encourages the sector to improve, but has the dis- advantage of fragmentation and the possible shift of transport back to road-based solutions. The national government together with Port of Rotterdam, the country’s main stakeholder, advocates clustering of hinterland transport and has recently formalized a corridor approach, which prioritizes and provides funding support for initiatives on only two corridors. Cooperation and coordination between the public and private sector have been key to the success in the ILC developments discussed in this report. Several persons interviewed for this report emphasized the importance of being aware how ILCs and ports func- tion as nodes in (often global) supply chains, and in a highly dynamic environment. Decision making could be local, but decision makers should identify the context in which they operate and seek coordination and commitment from a wide group of stakeholders. 92 MOBILITY AND TRANSPORT CONNECTIVITY SERIES COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 93 7. Lessons Learned from the Korean Experience 94 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Implications of Combining Development Policies and Development Issues A virtuous cycle of logistics facility development and economic development The sharp increase in import and export volumes various logistics facilities, such as inland container due to Korea’s export-led economic development depots and, more generally, inland logistics bases. presented both an opportunity and challenge for the This strategy led to a virtuous cycle in which planned Korean economy. The Korean government grabbed logistics interventions supported economic growth the opportunity to develop a centrally planned (figure 7.1). competitive logistics system with the deployment of Figure 7.1. A Causal Loop Diagram of the Virtuous Cycle of Logistics Facility and Economic Development Source: Korea Transport Institute (KOTI). COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 95 Realizing the importance of this centralized approach the consequent ripple effects are also affecting the to logistics and development, the government of logistics industry. Amid such changes, the logistics Korea established a structural institutional setting industry has begun to shift from being a labor-inten- to systematize the experience, shelter, and fortify sive industry to a technology-intensive industry. the created logistics systems and—importantly— Logistics companies have begun expanding their guarantee full coordination and alignment of the business fields to reflect these changes, and have growth and evolution of the logistics systems and shifted from providing existing logistics services the nation’s development plans. The institutions and to developing logistics technologies. At the actual carefully crafted mechanism include elements in the logistics site, the introduction and utilization of inno- legal systems, establishment of the Basic Plan for vation-based logistics technologies, such as robots National Logistics in connection with the CPDLFs, and autonomous vehicles, is rapidly expanding. enactment of the Act on the Development and Therefore, the Korean government’s policy to develop Management of Logistics Facilities to provide admin- logistics facilities should reflect the changes in the istrative and financial support in developing logistics importance and necessity of logistics technologies in facilities, and a legislation-based administrative finan- the industry. cial support system. Additionally, the paradigm shift in the manufacturing The combination of centrally planned facilities industry following the Fourth Industrial Revolution carefully protected and guided by harmonic policy has changed the role of logistics companies. and institutional context allow Korea to, first, make Traditionally, logistics services have been linked to logistics a central element of its development and the next stages of production, distribution and sales, global competitiveness, and second—and more and consumption. Therefore, logistics companies’ pri- importantly—create a virtuous circle in which logis- mary business areas were represented by transporta- tics clusters and economic and social development tion, storage, unloading, and packaging departments. reinforce each other organically. However, some global companies have outsourced most of these functions given the development of Innovations in logistics facility development and information technologies and maturing of globaliza- expansion of the favorable cycle structure tion, with the exception of planning, research and development (R&D), and design functions. Korea’s current logistics industry faces new and different changes and challenges in line with recent Logistics companies previously responsible for developments in the nation’s Fourth Industrial product distribution and delivery are now engaged Revolution. Therefore, the government of Korea must in demand forecasting and inventory management, promote innovation in its logistics facility develop- both business areas previously kept in-house by ment support system. global companies. Ultimately, the scope of the connection between logistics companies and global The core of the Fourth Industrial Revolution is the companies has expanded to include both production convergence and fusion of science and technology and supply chain management. Therefore, and in fields such as nanotechnology, robotics, and biotech- addition to recognizing the importance of logistics nology, based on information and communications technologies, the government should consider technology (ICT). The Fourth Industrial Revolution expanded logistics companies’ role within the supply has created both social and economic changes, and chain when contemplating policies to support them. 96 MOBILITY AND TRANSPORT CONNECTIVITY SERIES A change in government policy perspectives is also way to build industrial ecosystems and create such necessary for the government of Korea to produce value. Therefore, it could be posited a necessary innovative policies geared toward developing method to transform the logistics industry to be more logistics facilities following the Fourth Industrial technology intensive involves developing logistics Revolution. In other words, the government’s policy clusters to achieve more organic combinations. perspective on the development of logistics facilities should be expanded from a focus on the physical From the cluster perspective, Korea’s current logistics facility—such as the stand-alone or integrated logis- facility development method is closest to the simple tics facility—to a clustered, organically aggregated cluster type, where each integrated logistics facility concept (figure 7.2), due to the difficulty of expecting has two or more logistics facilities concentrated in a synergy to occur between facilities-turned-clus- one geographic region, along with several logistics ters via simple accumulation. Moreover, many companies gathered around them to utilize them. cluster-development methods have contributed to In most integrated logistics facilities, several small- the evolution of technology-intensive industries. and medium-sized companies will likely collaborate Representative examples include Silicon Valley in the in using the facilities, rather than being operated United States, Kista Science Park in Sweden, Oulu by larger companies. Additionally, these facilities’ Cluster in Finland, and Aichi Prefecture’s automobile operations are limited to traditional logistics service cluster in Japan. activities, such as storage and unloading. Therefore, low-level innovation and technological advancement These clusters have been evaluated as representative occurs within these facilities’ simple, repetitive activ- because technology-intensive companies, public-pri- ities. Moreover, because employees focus on the vate research institutes, and regional universities have facility’s operations, they exhibit low degrees of coop- gathered to create technological developments and eration. The range of services offered are also limited add value. As such, clustering is the most effective to logistics services, and thus, little change occurs. Figure 7.2. Paradigm Shift in the Development of Logistics Facilities Source: Korean transport institute (KOTI). COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 97 Interactive organic activities and smooth commu- However, the government now faces another chal- nications to facilitate innovation seemingly are not lenge in developing logistics facilities due to the performed among members of integrated logistics accompanying socioeconomic changes following facilities. Therefore, the integrated logistics facility the Fourth Industrial Revolution. Thus, the Korean in the cluster-development stage can be considered government must consider an expanded role for in an intermediate stage between an informal and technology-intensive logistics companies in global organized cluster. Accordingly, a transition should be supply chains; the government can use the paradigm made to support the clusters’ development, with the of logistics facility development to evolve clusters Korean logistics facility’s policies expanded to include with an organic perspective. Therefore, by system- the cluster-development perspective. atically implementing steps toward a logistics clus- ter-development policy based on its experience with Meanwhile, the government of Korea has served developing logistics facilities, the Korean government as a control tower for the development of logistics could help the logistics industry leap forward and facilities to meet market demand, given the former’s contribute to industry growth (figure 7.3). systematic planning and legislative policy support. Figure 7.3. A Causal Loop Diagram of the Favorable Cycle of Expanding Economic Growth from Logistics Facility Innovations Source: Korean Transport Institute (KOTI). 98 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Overall Reflections The government of Korea supported export-driven Thus, the logistics industry faces different changes economic development through the timely develop- and challenges in line with the Fourth Industrial ment of its logistics facilities in the 1990s, when Korea Revolution. The Korean government should address was a developing country. Korea consequently expe- the different changes facing the logistics industry rienced a virtuous cycle by developing its logistics based on its past experience with developing logis- facilities to spark economic development; the country tics facilities. Therefore, a paradigm shift in how could then establish a systematic support system to logistics facilities develop is needed: The existing further develop its logistics facilities. This system has physical unit-development perspective must evolve allowed the Korean government to serve as a control into an organic cluster perspective, since cluster tower for the development of logistics facilities. development is more suitable for developing technol- ogy-intensive industries in which the R&D function is However, the logistics industry is experiencing important. It can also be effective in strengthening another change with developments as a result of the connectivity with the manufacturing industry’s Fourth Industrial Revolution. As logistics changes complexes. from a labor- to technology-intensive industry, this shift emphasizes the importance of R&D in logistics Therefore, the government must expand its virtuous technologies. Additionally, the scope of the connec- cycle of logistics competitiveness and economic tion between logistics companies and global compa- development by creating more innovative logistics nies has expanded to include production and supply facilities through a development paradigm shift. chain management, as global companies are increas- Ultimately, to meet this goal, the Korean government ingly outsourcing more functions in these fields. must implement policies to promote the develop- ment of logistics facilities from a cluster perspective. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 99 8. Guiding Questions for Policy and Decision Makers 100 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Through which operational channels do logistics centers promote multimodality and efficiency in logistics? What is their broader economic and logistics cost impact? The first operational channels through which logistics provided more effectively by rail and barge ser- centers promote multimodality and efficiency in vices than by road. A high share of road transport logistics is the vicinity to the developed multimodal in hinterland transport places increased pressure services. Multimodality is a means to achieve better on road transport infrastructure in the port area— efficiency and quality. Efficiency and quality are frequently facing existing capacity constraints and among the objectives of all players in logistics service traffic congestion. Second, the external effects provision because they improve competitiveness and of road transport are more negative than those profit margins. of multimodal transport, because of greenhouse gas (GHG) emissions, air pollution, traffic safety Integrated logistics centers promote multimodality— risks, noise, and the road congestion, which also and hence efficiency—because tenants are located affects other users of the road infrastructure. near the terminals. All logistics centers are clusters Minimizing these external effects encourages of logistics service providers, supporting companies, social acceptance within the port region as well and sometimes cargo owners. Mutual vicinity creates as in the hinterland. To most port authorities, opportunities for efficient procurement of services, improving sustainability is another important from full logistics service packages to specific tasks, objective. For instance, the port in Los Angeles and such as trucking, usage of warehouse space, ware- Long Beach (LA/LB) support the Alameda corridor, housing, and repair and maintenance of trucks or while Rotterdam and Antwerp engage in inland other assets. This procurement of services is done terminal development and improving multimodal from one of two positions in the business column— connectivity inside the port. vertical cooperation, with cargo owners procuring logistics services and freight forwarders procuring • Terminal operators within the port prefer multi- truck services; or from a corporate policy of hiring modal transport options, because terminals are at partial capacity, via horizontal cooperation, with better equipped for handling large call sizes than the short lease of extra warehouse space and truck single-container calls by road operators; container operators cooperating for geographical coverage. handling in seaports is inherently a large-scale operation. Operators can also avoid congestion The mechanism in logistics in the stacking space by holding a portion of the centers for seaborne trade containers in the hinterland. Connecting services with multimodal terminals in the hinterland also For the group of logistics centers connected with contributes to competitiveness of the seaport seaports, multiple drivers promote multimodality. terminal, for example, the European gateway ser- From the perspectives of different stakeholders in the vices provided by ECT, part of the global container chain, these include, for example: terminal operator Hutchison Ports. • Port authorities prefer multimodal transport • Logistics service providers can save transport because it contributes to several objectives. First, costs if multimodal transport costs remain below accessibility of all parts of the seaport can be road transport costs. This is typically the case for COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 101 long-haul operations, where multimodal transport inland terminals. Next to low-cost transport in tariffs are often below road transport tariffs, for supply chains, the multimodal services also pro- example, between LA/LB and Chicago. To those vide for low-cost repositioning of containers when located on shorter distance from seaports, trans- needed, for optimizing use of the container fleet. port cost comparisons tell only part of the story Around the year 2000, when multimodality experi- because other advantages in logistics, related to enced rapid expansion in Europe, ocean lines held costs and quality, become apparent, for example: shares in European inland terminals, but withdrew after the market matured. ◊ Road operations in relation to seaport termi- nals are more difficult to control, and with low • The carriers in multimodal transport, namely punctuality, because of the high risk of con- railway and barge operators, hold a direct interest, gestion on the road and at the terminal gates. with multimodal transport serving as their main This volatility has implications for costs, for revenue stream. In the United States, Class I example, the number of trips a driver and truck railway operators also build and operate their own could make in this traffic would be lower than inland terminals. In Europe, some of the terminals the total trips over the same distance in other are also owned and operated by the rail or barge directions. operators, while others are owned by logistics service providers. ◊ Logistics companies benefit from inland ter- minals because the terminals keep a stock of • Society benefits from reduced external effects, as empty containers and store loaded containers. mentioned above. In the hinterland regions the Inland empty container stocks prevent empty logistics centers can divert heavy goods traffic container hauls and improve responsiveness to away from populated or environmentally vulnera- client or beneficial cargo owner (BCO) needs. ble areas. Inland terminals can hold cargoes for just-in- time delivery to consignees in import and to All players in the chain provide services with the ocean liner services in export. potential of improving logistics efficiency. For exam- ple, terminal operators do so by container transship- • Shippers, or cargo owners, typically in cooperation ment, inevitable in multimodality, which is their core with logistics service providers, have engaged in activity, and offer additional services to promote setting up multimodal chains, for several advan- multimodality, logistics efficiency, and their own tages, including improved supply chain control, profits, for example: such as Heineken providing base load in barge terminals, and BASF as a shareholder in terminals. • For the benefit of the cargo owners in the region and their logistics service providers, they keep a • Ocean shipping lines, the container owners, tend stock of empty containers and store loaded con- to keep inland loops short, though some also tainer terminals. This also benefits ocean lines if it expand their client base, through their presence reduces their overrun on terminal dwell times in in the hinterland, by holding container stocks in the seaports. 102 MOBILITY AND TRANSPORT CONNECTIVITY SERIES • For the benefit of local clients, they provide dray- • Most barge terminals in the Netherlands were age services or provide chassis for rent. developed by logistics service providers, which strengthened their position in external trade. • For the benefit of container owners, they clean, Many of these have become public terminals, maintain, and repair containers. meaning that third companies have access to transshipment and barge services. • For the benefit of all, if the terminal operator is the same entity as the multimodal operator, they • Non-vessel operating common carriers (NVOCCs) might improve service level of the multimodal such as Kühne + Nagel, hold shares in inland link by increasing frequency or improve the time terminals. schedule. • Since the market of barging containers is mature, These terminals provide opportunities to other many barge operators (some under partial owner- service providers in the supply chains of container- ship by other stakeholders) maintain ownership in ized cargoes as well as to their suppliers and clients terminals. to cluster around the terminal, through which overall logistics costs can be further reduced. In this type • In the United States, railway operators own and of logistics center, multimodality has helped drive operate the inland transshipment terminals and efficiency and creation of logistics services, rather are the sole providers of the multimodal transport than the other way around. services in the port hinterlands. However, they often choose to outsource these functions to With no blueprint of the role division of development subproviders. of terminals and of multimodal transport services, the following examples illustrate how services were • In the European context, the ownership of inland established through stakeholders pursuing their own terminals and multimodal transport services is far business interests in the global supply chains: from stable, which indicates changing priorities in various phases. For example, ocean lines are inter- • Around the turn of the century, ocean lines were ested in using good facilities in the hinterland; leading in developing terminals along the Rhine. however, when these are readily available, own- For example, P&O Nedlloyd, later part of Maersk, ership does not necessarily add value and capital took stake in a terminal in a trimodal in Duisburg; could be redirected elsewhere in the organization. however, this was later sold again. Seaport authorities of mainports such as Rotterdam • Between 1980 and 2005, ECT, part of Hutchison and Antwerp function as important engines in Ports, created a small network of its own inland promoting multimodal transport initiatives. Most terminals for rail and barge, to secure traffic over typically, the authorities engage by providing advice its terminal complex in the Port of Rotterdam. and technical support, for example, in planning Similarly, DP World, a multinational logistics com- procedures, by coordinating initiatives and match- pany based in Dubai, has owned the Worth barge making between stakeholders in business develop- terminal in southern Germany. ment, or by identifying funding possibilities. Another COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 103 important role: supporting projects to accommodate initiatives evolved as a natural process of seeking the multimodal transport, either through physical inter- optimal use of the available land. Access to multi- ventions in the port or through information technol- modal transport infrastructure became an important ogy (IT) solutions, such as port community systems, criterion for municipalities when developing new to improve traffic management and administrative industrial zones, and tenants became increasingly handling. aware of the advantages, and therefore the value, of these locations. In earlier stages, when the offer of multimodal transport services was still modest, port authorities The mechanism in logistics centers made efforts to create awareness of the need for a for continental trade modal shift among logistics service providers and their clients. The campaigned arguments included In continental trade the stakeholders include logistics the infrastructural limitations for accommodating service providers (clients of multimodal transport), increased road transport with the threat of gridlocks traders (such as distributers and retailers), those as well as the need for lowering external effects of involved in multimodal transport service provision, transport, which had become socially unacceptable. and society. Mechanisms promoting multimodal These promotional efforts were often financially transport are similar to those used in maritime borne supported by national governments and channeled hinterland transport, with some key differences: through associations of logistics services providers and cargo owners. • With terminals integrated in logistics centers, the lower drayage distances generally contribute to In later stages, when multimodal transport had stronger competitiveness of multimodal transport. demonstrated its viability, other logistics advantages became visible to all stakeholders; in Europe, this • As seen in the United States, storage of load units visibility led to wide engagement of the private sector such as 53-foot containers or semitrailers is com- and across all governmental levels in development mon and provides similar benefits to owners as to initiatives. For example, the business community, maritime related chains, namely, responsiveness together with government layers in the Dutch and fleet optimization. However, in the European province Brabant, located a short distance from Union (EU), terminals in continental multimodal Rotterdam, initiated intense business development transport have only limited space for storage, and promotional activities for setting up a multi- which means logistics service providers located in modal transport infrastructure and several forms of the logistics centers or elsewhere must use their cooperation, which resulted in a major modal shift. own premises for parking semitrailers or storing swap bodies. As part of the new awareness, business activities with high transport demand could best be located • In Germany, the GVZs (Güterverkehrszentren, or near waterways—and some near railway infrastruc- freight villages) by law must promote multimo- ture—where transshipment terminals could emerge. dality. All GVZs must be well-connected to the Initially low-cost and low-volume terminals, they later multimodal network, with regular services. This expanded when business grew. The clustering of obligation to uphold a good service level requires logistics services around these multimodal transport active engagement in multimodal transport 104 MOBILITY AND TRANSPORT CONNECTIVITY SERIES development. Not all GVZs generate long-distance delays and related to scarcity, and improved traffic sufficient to support solid business cases attractiveness of the port cluster, and therefore, or offer strong competitive multimodal services. avoids a loss of market share with its subsequent Without obligation the effort to create viable multiplier effects. solutions would probably be less. GVZs are quite successful in upholding their multimodal connec- • Better utilization of transport assets, resulting in tivity. Similar to GVZs, the interporti in Italy are fewer empty hauls and higher load rates. connected by rail, but only a handful maintain a strong multimodal transport portfolio, as domes- • Greater opportunities for horizontal collaboration, tic interconnectivity in Italy is generally limited. generating more sharing assets and sharing Some other EU countries have developed similar clients concepts, though with fewer FVs and low multi- modal transport volumes. • Lower container storage costs, as mentioned above. • Another way for these FVs to promote efficiency is through internal cooperation. These centers • Increased benefits provided by multimodality, as strive for a wide range of tenants, and this pro- opposed to road transport, to the environment, vides advantages related to the clustering, that GHG, traffic safety, and road congestion in the is, the good availability of all types of supporting corridor. services, including drayage, storage, repair and maintenance, banking, and more, which provide • Increased risk of road congestion around the opportunities for the focus and division of labor. terminals. Broader economic and logistics cost • Reduced fragmentation of transport, which is impacts of logistics centers especially advantageous in urban environments. The broader economic and logistics cost impacts of • Improved attractiveness of the region for manu- logistics centers include the following: facturing, trade and distribution, leading to more gross domestic product (GDP), employment, tax • Reduced overall transport costs, depending on the revenues, and other benefits generated by logis- distance between origins and destinations as well tics centers with wide service portfolios. as other factors. • Improved redistribution of employment across • Improved proximity to the markets in the hinter- regions. land when container storage for seaborne cargo is decentralized. • Increased opportunities for the use of electric vehicles provided by the shorter hauls. • Reduced risk of extreme congestion results in fewer significant, short-term delays in transport- • Increased ability, thanks to multimodality, to cope ing seaborne cargo, lower costs associated with with driver shortages when the labor market is tight. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 105 How feasible is it to centrally plan and guide the development of logistic clusters to foster competitiveness? Many developing countries lack multiple regional and expertise. In Malaysia, development plans for economic poles and/or private sector champions to logistics and regional development, including logis- support the decentralized and organic emergence of tics clusters, have been routinely informed by “deep logistics clusters. Consequently, many policy makers dive” planning exercises where leaders from industry find themselves asking: How to deploy their typically and government collaborate to agree on goals, policy scarce fiscal resources in a targeted fashion to craft direction, specific interventions, and key performance industrial policy around logistic facilities develop- indicators (KPIs). Singapore is another notable exam- ment? Many island states, coastal countries, and stra- ple. The Port of Singapore and adjacent facilities tegically located landlocked countries face this exact comprise one of the world’s most important logistics challenge and struggle to identify viable solutions. clusters, critical to the facilitation of global trade. The planification of capacity and services expansion at the Korea offers a unique example and lesson, with Port of Singapore in the long term—over decades—is institutions as the key. The combination of centrally government-led, with both the port and the port planned facilities carefully protected and guided by operator itself are government-owned. And Vietnam, harmonic policy and institutional context allowed even though positioned earlier in its development Korea to first, make logistics a central element of trajectory compared to Thailand, Malaysia, and its development and global competitiveness, and Singapore, provides another example of successful second and more importantly, create a virtuous circle development of logistics clusters—including in in which logistics clusters and economic and social textiles and apparel, furniture, and electronics—in a development reinforce each other in an organic way. planned manner. In the case of Vietnam, however, institutional strengthening is essential, and required Two other examples in East Asia mirror Korea’s expe- for incorporating private sector considerations in rience: Malaysia and Thailand have been successful in government planning. developing logistics clusters for electrical and elec- tronic products. Malaysia also serves as a successful An open question remains to be addressed by global cluster for rubber and rubber products. In all further research: Would this model work for large, three cases, cluster development benefited from cen- continental, and/or heterogeneous developing coun- tral government planning and investment and institu- tries outside of East Asia, such as Mexico, Turkey, or tional approaches that brought in private sector input South Africa? 106 MOBILITY AND TRANSPORT CONNECTIVITY SERIES What role should government—at various levels, whether regional or international, national or subnational—assume in the planning, investment, execution, and regulation cycle of logistics center development? How should this be done? With no formal blueprint of role divisions, the objec- traffic will also have more say from players in tives of logistics center development and the contexts seaborne supply chains. Other regions will have of that development, can be very different. different priorities, for example, strengthening the position in certain supply chains, such as chemical A well-working general principle, as also applied in clusters and agroclusters, or pursuing primarily the European and U. S. experience, demonstrates local interests, for instance, banning heavy goods the layers of government that should be most vehicle (HGV) traffic from urban zones. prominently involved are those receiving the most • Most logistics centers in Europe are open, pub- impact, in benefits and costs. In almost all logistics lic-owned structures, developed and managed center developments, these layers are the lower by organizations established for this purpose, government levels such as municipalities, districts, or comparable with port authorities. These organi- provinces. Some logistics centers have national signif- zations will often allow any company settle into icance, in which case national-level agencies should the logistics center, as long as they comply with be given a stronger role, as is done, for example, for the desired logistics or logistics-intense business ports and airports. profile. Some logistics centers allow tenants to buy land; however, the dominant structure is to In North America and Western Europe, national-level lease the land. The role of the management entity public sector entities typically provide framework depends on the ambitions and objectives of the conditions, such as regulatory framework for land logistics center, though the core functions include use, transport planning, and infrastructure finance, acquiring tenants and providing and maintaining coordinating developments, for example, by their basic infrastructure. More ambitious logistics priorities in cofunding investment projects. In the centers, such as those in Duisburg and Venlo, United States, as well as in EU member states, the also assist in developing multimodal connectivity, national level does not generally get involved in promoting and exploiting synergies, innovation, developing or cofunding logistics centers, except for and all types of actions to secure long-term attrac- EU states’ cofunding of transshipment terminals. The tiveness of the integrated logistics center (ILC). lower political levels typically acts as project promot- ers and have the final say in project completion. • Logistics centers in the United States are typically privately owned. The two examples in the U. S. Within these principles, great variation occurs case studies presented in this report were pro- in the observed roles of government layers: moted, owned, and managed by private property developers. The investment, ownership, and operation of the transshipment facilities lie with • Municipal and other subnational governments act the private railroad companies (BNSF and Union as initiator or, probably more typically, co-initiator Pacific). with the local business community for develop- ing logistics zones. Cities will also promote the • National governments generally adopt transport project and throughout the process will continue policies focused on connecting all regions sustain- to cooperate closely with public and private stake- ably and safely. The Netherlands and German also holders. Regions actively involved in hinterland COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 107 have a strategy to promote the capabilities of the • Municipal governments make medium- and long- logistics sector, because they consider logistics as term plans for land use and infrastructure develop- a key asset for exploiting their strategic locations, ment. These plans are legally binding and provide and therefore, for their economy. These countries certainty to all stakeholders, including residents support the companies involved in logistics service and project developers, on the plans’ main fea- provision by cofunding research, development, tures and development directions. The plans result and education, for example, but do not intervene from consultation processes and will be politically in the establishment of logistics centers. endorsed and updated when needed. Planning cycles usually fall between five and ten years. • National governments own national road infra- structure and are responsible for developing and • Higher-level government layers take coordinat- maintaining these networks. Lower-level govern- ing roles. For example, in the EU, EU-level and ments assume similar roles for the infrastructure national-level governments only cofund projects they own. Because logistics centers influence the that contribute to national (or European) interests. need and use of infrastructure, from this perspec- In the Netherlands and Germany, the national tive governments also act as stakeholders in the government cooperates with lower layers as well development of logistics centers. as with the private sector to promote the provision of sufficient service levels while avoiding overca- • Across Europe, the national governments own pacity and fragmentation. They often rely on soft the railway infrastructure companies, tasked instruments, for example, technical assistance, with developing and maintaining a good quality research, and consultative. network and allocating railway capacity to users. Therefore, the governments function as partners in • The EU has no or only a marginal role in invest- terminal development, connecting terminals with ment in logistics clusters. At the European level the network and accommodating generated traffic. there can be cofunding (less than 20 percent) of investment in hubs with international impacts. • Railway infrastructure in the United States is This is also for rail or waterway infrastructure privately owned, with developing and maintaining connecting these hubs to the “Trans European a good quality network of infrastructure and Network.” The EU has cofunded many projects services as their core business. The railway com- for promoting logistics efficiency and greening panies cooperate if rail operations go beyond their of transport, which includes recent projects for own networks. promoting “massification” and, for example, the • The United States and all EU member states follow greening of local distribution and promoting col- national regulations and planning frameworks for laboration. Europlatforms and its members have land use. These include provisions for safeguard- often been beneficiaries of this financial support. ing the environment, such as compulsory environ- • All levels of government are also often landowners mental impact assessments and related permit- and become contracting partners in development. ting procedures, and safeguarding the interests of Government could also procure land for speeding all citizens, such as procedures for development up a foreseen development, such as a logistics consent, which include public consultations and center. compensation rules. 108 MOBILITY AND TRANSPORT CONNECTIVITY SERIES How many integrated logistics centers can a country’s hinterland(s) justify, and how could this number be determined? The amount of logistics services provided by the ILCs Other issues: depends on too many factors for a clear-cut answer. However, the answer relates to the ILCs’ positions • Smaller container seaports often have only a in supply chains, and can vary from the assembling regional function, and multimodal solutions can of car parts to consolidating urban deliveries for be difficult to sustain due to low financial viability. retailers. Distances to the hinterland are too low for a com- petitive offer versus road transport and volumes Further, the ILCs themselves also vary greatly, for are not sufficient for offering frequent multimodal example, the 1,300-hectare PLAZA, a logistics plat- services. form near Zaragoza, Spain, is one of the largest ILCs, and while it has rail infrastructure connections, PLAZA • Midsized terminals, with throughputs of 2 million generates less multimodal traffic than several Dutch TEUs, also appear to have a low share of contain- barge terminals surrounded by only a handful of ers moving on trains or barges into the hinterland. logistics facilities. Many of these terminals struggle with similar challenges as those faced by small terminals, When approaching this question from the perspec- as mentioned in the previous point. In addition, tive of multimodality to hinterland regions, the midsized terminals could have a larger share of following parameters apply: throughputs in which cargo is (un)loaded from the container in the seaport and not in the hinterland. • Traffic volume between the seaport and hinter- In the Unites States, cargo is often transloaded land region(s); between maritime International Organization for Standardization (ISO) containers and domestic • Minimum frequency of an intermodal transport 53-foot containers or trailers, which makes road service needed to attract clients; transport more competitive and could lower inventory carrying costs through inventory post- • Minimum volume for an intermodal transport ponement strategies. service to render; • France’s largest container port, Le Havre (2.9 • Minimum size of an inland terminal to render; and million TEUs), has long faced struggles in setting up and maintaining intermodal connections with • Minimum size of a terminal to entice logistics the hinterland. The port provides an example of service providers to co-locate. the previously mentioned container (un)loading in the seaport. The main contributor to this situation One rule of thumb is that frequency of service should is that high land prices and road congestion are a be at least twice per week for long-distance travel greater constraint in the Paris Region—by far Le and up to daily, or five times per week, for nearby Havre’s dominant hinterland region—than in the terminals. A daily service in Europe totals about port of Le Havre. 35,000 twenty-foot equivalent units (TEUs) in annual traffic, which can be considered the minimum size for • The distance between LA/LB and Chicago totals a modest terminal. approximately 2,000 miles or 3,000 kilometers), COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 109 which creates the opportunity for an inland trans- • Service improvements, for example, more reliable, fer point near the seaport for transloading cargo more secure, faster, if the container is (un)loaded between maritime and continental containers, in the hinterland. because of higher capacity—surface space, cubic space, weight, pallet spaces—of the latter. • Conversely, cost savings if containers are (un) loaded in the seaports, for example, when the • Seaports with little congestion or constraints in load capacity of trucks exceeds the load capacity land availability, offer less incentives to maritime of maritime containers. sector players to encourage multimodal transport. The approach from the perspective of logistics ser- • If port hinterland traffic is spread over multiple vices is even more complex. A market study must hinterland regions, a transfer hub could be desir- provide insight into the added value of an logistics able for maintaining sufficient service frequency. center before the current services providers and the For example, the significant connecting drayage potential for new logistics services will settle. traffic between the BNSF facility, near Chicago, and facilities with connections to the East. In sum, the safest answer to the question is: • The transfer hubs, such as Duisburg, have addi- • If a country has no ILCs yet, it should start with tional opportunities when hinterland regions are one ILC by studying feasibility, including a con- connected to multiple seaport terminals. sultation of all stakeholders in the logistics chain, to ideally find a way to commit private sector to • Some seaports could have constraints that make co-investing in such a venture. adopting a multimodal approach more difficult. Rotterdam and Antwerp promote multimodality, • If a country already has ILC, then the process but at the same time face continuous pressure to should start from there, by understanding further accommodate this multimodal traffic. Both ports needs, learning from its experiences, and other combat barge congestion—barges use the same considerations. facilities as ocean lines—and they have invest- ments heavily in more efficient rail access within • It would be a mistake to make a master plan for the port areas. The Alameda Corridor should also developing an ILC network on the basis of trans- be seen in this light of creating port capacity for port forecasts, even if these forecasts are comple- hinterland transport. mented with brief market surveys. An assessment of the potential for inland terminals, however, is For nonintegrated logistics centers, namely those a good start and will support the dialogue with without rail or waterway connections, the comparison sector players. should focus on the following factors: • Cost savings if containers are (un)loaded in the hinterland, with its cheaper and more readily accessible land for container storage, lower-cost labor for handling, and other advantages. 110 MOBILITY AND TRANSPORT CONNECTIVITY SERIES The international experience with master planning of • In Germany, the national railway, Deutsche Bahn ILCs is mixed at best: (DB), conducted GVZ planning in the 1990s as a central planning exercise. Partially based on • For its national planning in the 1990s, the railway optimization rather than logistics needs, Netherlands used a hierarchical system to estab- DB’s GVZ master plan did not receive official polit- lish the mainports at Rotterdam and Schiphol ical approval, and was never funded. The idea of airport. However, the additional five secondary central planning was abandoned and GVZ became inland nodes and tertiary inland nodes appeared a joint enterprise between lower public levels and to be ineffective and the hierarchical system was other stakeholders, including DB. abandoned before the end of the decade. How should logistics center locations be determined, by who, or under which process, and with which economic and operational rationale? Logistics centers, and in particular ILCs of national the national transport network. Gateways make or above-national significance, need to be well-con- good locations for regional or urban distribution nected to a high-quality infrastructure network. A centers. successful ILC should have the following functions: • A logistics hub function, which requires similar • A transport hub function, which means the pro- excellent connectivity as well as a strong presence ducer and consumer markets are not necessarily of the logistics industry. A strong labor market is in its direct vicinity. The location of the transport essential, to provide for all levels of the work force. hub can be quite flexible, as long as it has excel- To ensure its sustainability, the logistics hub needs lent and available infrastructure connections, to liaise with institutes for education and innova- which provides added value and helps attract tion, which, ideally, are already well presented. logistics services to settle; however, the hub’s main role is providing connectivity. A region can Logistics centers should be developed based on benefit from a hub’s connectivity, and for this demand. A “bottom-up” process is most effective. reason regional development prospects should be considered in location choice. With such develop- Transport hubs are most effectively initiated by a ment scenarios in mind, adequate space should transport carrier, who also holds the highest stake. In be reserved to accommodate future development. inland networks, these stakeholders are most often railway operators, though air carriers are also vital for • A gateway function to a region or city, which must developing cargo hubs in aviation. have good road connections within its region as well as multimodal connections throughout COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 111 Typically, lower-level governments will promote network, essential tasks especially for any inte- gateways and logistics hubs, as follows: grated clusters entities representing railways or inland waterways. • Taking into account the expected benefits and costs, the community of logistics service providers • Exploring or exploiting national or EU cofunding and/or their clients will often function as lobbyists possibilities. for development. • Seeking out any type of risk-sharing arrangement • Initiating development with decent market with property developers, banks, investment research and consultation. funds, and other potential investors. • Developing a strategy to ensure adequate land • Taking the required steps in permitting process, availability and room to accommodate increased as large interventions require environmental traffic and space for logistics assets. impact assessments, subject to possible appeals. Smaller interventions also have certain procedures • Facilitating and ensuring awareness of devel- required for building permits of smaller projects, opment opportunities and constraints of the with the possibility of appeal. What sorts of financing mechanisms are better suited to logistics center development? Financing should cover investments in: • During operations, the costs of logistics center management, marketing and maintenance. • The planning phase, which includes studies needed for building permits, such as market and The suitability of a particular financing mechanism is feasibility studies, cost-benefit analysis, public principally a case-by-case decision, dependent upon: consultation, and design studies; • From which perspective the development should • Land acquisition; be viewed, whether societal, governmental, or • The construction phase, the provision of basic private-sector promotor; infrastructure, which for logistics centers consists • The starting position, such as who is landowner? of land preparation and infrastructure for utilities What needs to be done?; and and transport; • The development’s ambitions, objectives, pros- • Some logistics centers might also include con- pects, and risks. struction of buildings and fencing; • For ILCs, financing includes the construction of transshipment facilities; 112 MOBILITY AND TRANSPORT CONNECTIVITY SERIES All European interviewees—Duisport, Smart Logistics sufficient resources to cover its operational costs Centre Venlo, and the German Association of a repay the upfront investment. With substantial Güterverkehrszentren (DGG)—preferred a central role contributions to other social objectives—for example, for the public sector investment for the following environmental benefits and reduced unemploy- reasons: ment—other public funds (from EU, national, or lower-level government) could subsidize. • Guarantees public interests, including those related to socioeconomics, as seen in Duisport Investments in local connecting railway and waterway and Venlo for helping to attract business and infrastructure follow procedures of the respective employment, or related to reducing externalities, infrastructure management entities and are not part for example, with Güterverkehrszentren (GVZs) of the logistics center project. The infrastructure helping to reduce urban traffic. users pay any user charges. • Creates more sustainable logistics centers with Venlo, Duisburg, and most GVZs operate in densely a longer-term perspective, starting with the long populated environments with many potential conflicts breath needed for development; time between of use. Large-scale private ventures are difficult to idea and realization is often measured in years. realize in such circumstances, and are therefore rare. • Helps to maintains synergies within the logistics The United States offers examples of mainly private center as well as across its overlap with other initiatives. AllianceTexas in Fort Worth is one example sectors. To do this successfully, logistics center in which a private investment company acts as the managers must remain alert. Examples include risk holder and funder in all phases. Measures of suc- Duisport providing loss-giving rail services, Venlo cess in documentation are mainly financial, and these connecting with agroindustry, and GVZs initiating are positive for the investor. A largely private venture, innovations. AllianceTexas was a greenfield development with a cargo air hub as main asset. The role of lower-level • Using public-private-partnership (PPP) models for government was to provide the connecting road and the development and construction phases only, other infrastructure, for example information and for example RAG Montan Immobilien in Logport communication technology (ICT), utilities, and the IV, where the private company owned the site. like, typically funded from annual budget possibly supported by higher government layers. These interviewees also agree the venture should be an independent enterprise, which generates COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 113 How to attract tenants to and grow the volume of freight handled at logistics centers? Tenants are attracted by targeted marketing, mainly Increasing volume is the key interest of all tenants; using existing business networks of stakeholders, each will do their part to attract volumes. The logis- complemented by promotional activities, for exam- tics center management promotes and advertises the ple, on industry fairs and business missions (see the center’s capabilities, to attract business and develop Duisport discussion in chapter 3). Identification of multimodal connections. potential tenants starts in the early phases of devel- opment, through market studies and consultations. What sorts of regulations, performance monitoring, planning practices, and other forms of core public sector practices should be in place to implement and sustain a logistics clusters strategy at all levels of geographic and place granularity, and at all levels of government (national and subnational)? Within performance management, what makes a logistics center “high-performing”? How can this be measured? Should this be measured by the public sector? Logistics cluster policies in the Netherlands and does not exist other than a low-level of data sharing Germany include soft instruments for promoting the for statistical purposes, which generally relies on quality of the logistics sector, for example, through data related to transport movements collected by education and research. other business sectors. Those with financial shares in logistics centers—such as NRW and the City of For geographic clustering, governments have devel- Duisburg in Duisport, the City of Venlo in Tradeport oped policies to concentrate freight traffic along Venlo—will request financial reporting, in a level of corridors, such as those in the Netherlands, east and detail as agreed between the entities. For example, southeast, and Nordrhein-Westfalen (NRW) around the financial accounts of Duisport are published the Rhine, avoiding fragmentation and securing annually and provide insight into public spending long-term expansion potential. These policies focus and revenues. Other logistics centers also produce on transport infrastructure with mainly soft sup- such accounts, which are generally public though not porting actions (coordination, communication), and formally published. prioritize the cofunding of infrastructure projects in these corridors. Europlatforms makes lists of “top freight villages,” based on a voluntary questionnaire circulated among With no special regulation in place and planning its members. Highly ranked GVZs, or freight villages practices no different from their common planning (FVs) have an implied high score on performance practice, performance monitoring of logistics centers indicators such as multimodal traffic and share of 114 MOBILITY AND TRANSPORT CONNECTIVITY SERIES space in use as well as, for example, the available and acceptance by the regional public, logistics cen- room for expansion. In this list a low rank does not ters voluntarily publish statistics on issues such as necessarily mean the FV is underperforming; an FV labor force, freight volumes handled, surface space in with narrow scope, say on city logistics only, would use for logistics activities, and so on. never be ranked high, but would still be considered successful if it satisfies its objective. In Europe, FV owners can determine if performance management would add value. Any national obli- “High performing” should always be regarded in gation would result in more red tape. In the United relation to objectives, and objectives differ largely States, where logistics center ownership is more between logistics centers. Evaluation studies could be private, with no public regulation for measuring per- commissioned to verify the extent logistics clusters formance or sharing results with the general public, have met expectations. However, robust evaluations the situation will not be different. are rarely done. For the purpose of their promotion What is the role of logistics clusters in improving supply chain environmental sustainability and operational resilience? While warehouses play a role in creating operational • Clustering creates better opportunities for piloting resilience, this function is not related to the clustering and advancing innovations. Examples include the of warehouses and other logistics functions in logis- introduction of electric vehicles, developing IT plat- tics clusters. forms for coloading in urban distribution, coor- dination in urban delivery, such as in areas with The role of logistics clusters in improving supply short time windows. Pressure for such innovation chain environmental sustainability includes the has increased in the past decade. For instance, the following: EU has experienced increased pressure to curb HGV externalities in urban regions, and many • For ILCs, multimodality provides clear benefits to municipalities now regulate though strict environ- the environment as opposed to road transport, mental rules and bans on “unsustainable heavy as related to GHG and local pollutant emissions, goods vehicles.” traffic safety, and road congestion in the corridor. The role of logistics clusters in improving operational • In theory, horizontal collaboration between ten- resilience in supply chains include the following: ants creates opportunities for improved utilization rates of transport assets, with fewer empty hauls • Multimodality creates resilience, and multimodal and higher load rates. However, in practice, this supply chains have lower risk of congestion in has not been very successful. ports and urban areas. Without multimodal COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 115 connections with ILC, congestion increases, par- ticularly in seaports, which results in significant delays and affects reliability of the logistics chains, and thus supply chains as well. • Logistics clusters offer opportunities for horizontal collaboration, such as sharing assets and clients, which creates room for absorbing demand peaks and prevents bottlenecks in the supply chains. • An active logistics center management and com- munity have an eye for the long-term and antici- pate developments that go beyond capabilities of single logistics service providers. Examples of this foresight include the Duisport and Venlo logistics centers, which work together with regional edu- cation institutes and set up programs to stimulate jobs in the logistics sector, by developing training material, providing internships, promotional events, and other recruitment resources. They also liaise with the research and development community to encourage innovation and with other sectors to support business development. • A well-rooted ILC provides confidence and cer- tainty to potential clients and all stakeholders that service level will keep pace or even be ahead of increasingly stringent supply chain requirements. • A well-rooted ILC serves as a major employer and engages by showing social responsibility that contributes to social acceptance. This is particu- larly important in the logistics sector and its many externalities. • Logistics centers are typically better at anticipating when plots become scarce and have more influ- ence if improvements in public infrastructure are needed. 116 MOBILITY AND TRANSPORT CONNECTIVITY SERIES Mobility and Transport Connectivity series: 2021 reports MOBILITY AND TRANSPORT CONNECTIVITY SERIES DECEMBER 2020 Accelerating Digitalization: Critical JUNE 2021 Do Speed Limit Reductions Help Road Actions to Strengthen the Resilience Safety?: Lessons from the Republic of MOBILITY AND TRANSPORT CONNECTIVITY SERIES ACCELERATING DO SPEED LIMIT REDUCTIONS DIGITALIZATION HELP ROAD SAFETY? Critical Actions to Strengthen the Resilience of the Maritime Supply Chain of the Maritime Supply Chain Lessons from the Republic of Korea’s Recent Move to Lower Speed Limit on Urban Roads Korea’s Recent Move to Lower Speed https://openknowledge.worldbank.org/ Limit on Urban Roads. handle/10986/35063 https://openknowledge.worldbank.org/ Available also in French. handle/10986/36109 World Bank. 2021. Mitra, Sudeshna; Job, Soames; Han, Sangjin; Eom, Kijong. 2021. 1 CLOSING THE GAP: GENDER, TRANSPORT, AND EMPLOYMENT IN MUMBAI Closing the Gap: Gender, Transport, MOBILITY AND TRANSPORT CONNECTIVITY SERIES Electrification of Public Transport: A and Employment in Mumbai ELECTRIFICATION OF Case Study of the Shenzhen Bus Group. PUBLIC TRANSPORT https://openknowledge.worldbank.org/ A Case Study of the Shenzhen Bus Group https://openknowledge.worldbank.org/ MOBILITY AND TRANSPORT CONNECTIVITY SERIES handle/10986/35297 handle/10986/35935 CLOSING THE GAP: GENDER, TRANSPORT, AND World Bank. 2021. World Bank. 2021. EMPLOYMENT IN MUMBAI Policy Note 2021 Institute of Transportation Studies MOBILITY AND TRANSPORT CONNECTIVITY SERIES FEBRUARY 2021 Connectivity for Human Capital: MOBILITY AND TRANSPORT CONNECTIVITY SERIES FEBRUARY 2021 To Pave or Not to Pave: Developing a CONNECTIVITY FOR Realizing the Right to Education and Framework for Systematic Decision- HUMAN CAPITAL Realizing the Right to Education and Healthcare through Improved Public Transport in African Cities Healthcare through Improved Public Making in the Choice of Paving Transport in African Cities Technologies for Rural Roads https://openknowledge.worldbank.org/ https://openknowledge.worldbank.org/ handle/10986/35185 DEVELOPING A FRAMEWORK FOR SYSTEMATIC DECISION-MAKING IN THE CHOICE OF PAVING TECHNOLOGIES FOR RURAL ROADS handle/10986/35163 World Bank. 2021. World Bank. 2021. The Road to Opportunities in Rural 1 MOBILITY AND TRANSPORT CONNECTIVITY SERIES THE ROAD TO OPPORTUNITIES IN RURAL INDIA: THE ECONOMIC AND SOCIAL IMPACTS OF PMGSY Adapting Mobility-as-a-Service India: The Economic and Social for Developing Cities: A Context- MOBILITY AND TRANSPORT CONNECTIVITY SERIES ADAPTING MOBILITY-AS-A- THE ROAD TO OPPORTUNITIES IN SERVICE FOR DEVELOPING CITIES RURAL INDIA: THE ECONOMIC AND Impacts of PMGSY Sensitive Approach A Context-Sensitive Approach SOCIAL IMPACTS OF PMGSY Matías Herrera Dappe, Muneeza Mehmood Alam, and Luis Andres https://openknowledge.worldbank.org/ https://openknowledge.worldbank.org/ handle/10986/36626 handle/10986/36787 World Bank. 2021. World Bank. 2021. COMPETING WITH LOGISTICS CLUSTERS VIGNETTES FROM THE INTERNATIONAL EXPERIENCE 117 Photo Credits Cover Page: Vladyslav Horoshevych, Shutterstock, 2059209287 Page vi, 92: Alzay, Shutterstock, 1501413152 Page viii: Gorodenkof, Shutterstock, 1845794650 Page 1: NetVideo, Shutterstock, 2051933501 Page 7: anek.soowannaphoom, Shutterstock, 303635408 Page 19: Adrian Jach, Shutterstock, 1590122335 Page 49: Sergey Novikov, Shutterstock, 636737287 Page 60: Carolyn Franks, Shutterstock, 650334331 Page 61: Johnathan21, Shutterstock, 1823656205 Page 82: Tanjala Gica, Shutterstock, 1010605621 Page 83: Aun Photographer, Shutterstock, 2062908119 Page 93: Taiga, Shutterstock, 51341848 Page 99: Halfpoint, Shutterstock, 794138326 118 MOBILITY AND TRANSPORT CONNECTIVITY SERIES