Other Infrastructure Study
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Publication
Transport and Logistics: Myanmar Infrastructure Monitoring
(Washington, DC: World Bank, 2022-03-31)Transport and logistics services in Myanmar have been substantially hit by the impacts of the February 2021 coup and the surge in Coronavirus disease 2019 (COVID-19) cases. Logistics companies have been affected by rising fuel prices, border closures, and a shortage of shipping containers. While the initial effects after the military coup on the transport sector were extremely severe, there have been signs of some recovery of transport services since May 2021. Public transport in Yangon experienced a significant reduction in passenger demand in early months after the coup, subsequently recovering some ground by December 2021. Higher fuel prices and currency liquidity shortages significantly increased the cost of inland transport services. Transportation and logistics services are expected to be severely impacted by continuing high fuel prices, mobility constrains, political instability, and evolution of the pandemic. The export and import via container are expected to recover gradually due to agricultural and garment industry-led demand. However, improvement of exports and imports in the medium term is uncertain given the complexity of trade relations with international trade partners. In addition to effects of the coup and political conflicts, risks related to the pandemic will also significantly impact logistics supply chains and mobility in the near to mid-term. -
Publication
Steering Towards Cleaner Air: Measures to Mitigate Transport Air Pollution in Addis Ababa
(World Bank, Washington, DC, 2021-09)Air pollution, exacerbated by urbanization and motorization, is a growing concern in Addis Ababa and many other SSA cities. In Addis Ababa, air pollution from the urban transport sector is attributable to rapid motorization, an aging vehicle fleet, high sulfur fuels, lack of emission standards, and inadequate vehicle inspection and enforcement, calling for a shift towards integrated transport and air quality management. The report is one of the deliverables of the World Bank’s Advisory Services & Analytics program entitled “Ethiopia: Air Quality Management and Urban Mobility.” It aims to assess mitigation options for transport emissions for Addis Ababa (AA) in the Ethiopian context and recommend priority measures for short- and mid-term actions. The formulation of potential mitigation options builds upon a review of relevant development strategies and ongoing initiatives of the Federal and AA governments and development partners, the Ethiopian and international experiences, the results of Addis Ababa’s source apportionment study including vehicle emission inventory conducted for this ASA, and consultations with relevant stakeholders. A set of transport air pollution mitigation measures are assessed, prioritized and recommended for Addis Ababa. -
Publication
Road Safety Management Capacity Assessment for Vanuatu
(World Bank, Washington, DC, 2021-06-01)This Road Safety Management Capacity Assessment (RSMCA) seeks to gain a broad understanding of the Government of Vanuatu's road safety management capacity to support its plans to improve road safety outcomes throughout the country. The RSMCA follows the seven critical road safety institutional management functions (Bliss and Breen 2013) to identify key challenges and provide recommendations for improvement in road safety management, and similarly addresses the Safe System pillars for the interventions level. The seven institutional management functions include: results focus, coordination, legislation, finance and resource allocation, promotion and advocacy, monitoring and evaluation, and research and development of knowledge transfer. The Safe System pillars include road safety management, safe roads and mobility, safe vehicles, safe road users, post-crash care, and safe speeds. The RSMCA’s alignment with both the road safety institutional management functions and the Safe System Approach in turn aims to help the Government of Vanuatu to prioritize targeted next steps to address road crash death and serious injury in the country. -
Publication
Flood-Resilient Mass Transit Planning in Ouagadougou
(World Bank, Washington, DC, 2021-06)Ouagadougou, the largest city in Burkina Faso, is growing rapidly, with the annual rate reaching 9 percent by some estimates, and with commensurate challenges for ensuring efficient mobility for its residents. Like many urban areas in Sahelian West Africa, Ouagadougou is also highly vulnerable to extreme hydro-meteorological events. In the context of the plans to develop an efficient, bus-based mass transit system in Ouagadougou in the medium term, the study aimed to characterize the spatial distribution and severity of flood risk affecting the planned system; and to identify, evaluate, and prioritize interventions that will increase its resilience. The study focuses on a pilot sector of 67 km, covering a large part of central Ouagadougou and its strategic infrastructures, at the intersection of the future planned mass transit system and the areas of the city a priori considered more flood prone (for example, near the major dams). By working with a local drone operator and an international flood modelling firm, the study constructed high spatial resolution digital elevation and digital terrain models for the area of interest (AOI), which served as inputs for developing a hydrological model. To further classify the road and future mass transit sections in order to prioritize interventions, the analysis applied the criteria of an area priority score and a flood criticality score, which together combine into an overall impact score. The importance of good planning and policy and regulatory actions vis-a-vis more structural engineering solutions is underlined by the fact that the top two measures singled out by the multicriteria analysis are so-called soft solutions - related to the maintenance and cleaning of the flood-related structures and the reinforcement of the waste collection system. -
Publication
Road Geohazard Risk Management Handbook
(World Bank, Washington, DC, 2020-10)This handbook outlines an approach to proactively manage the risks of geohazards on roads, road users, and the people living near and affected by road. This handbook is structured to support road geohazard risk management sequentially and systematically: Part I, Framework for Road Geohazard Risk Management, helps users understand the framework for road geohazard risk management, introduces some basic concepts, and provides context to the overall handbook; Part II, Institutional Capacity and Coordination, covers the institutional arrangements that are necessary for the successful implementation of geohazard management; Part III, Systems Planning, covers the systems planning aspects, pertaining to the identification, assessment, and evaluation of risks, along with raising awareness of disasters; Part IV, Engineering and Design, deals with the engineered solutions to address geohazard risks, giving examples of different solutions to particular risk types; Part V, Operations and Maintenance, focuses on the operations and maintenance aspects of geohazard management whether the maintenance of previously engineered solutions or the nonengineered solutions available to mitigate the impacts of geohazard risks; Part VI, Contingency Planning, addresses contingency programming issues, such as postdisaster response and recovery, and the important issue of funding arrangements; and Part VII, References and Resource Materials, contains the reference list and additional online resources. Additionally, this handbook includes standard templates for terms of reference (ToRs) that can be adapted for technical assistance projects for road geohazard risk management (see Appendix A) and an operation manual (OM) for the practitioners involved with road geohazard risk management (see Appendix B). -
Publication
Envisioning 5G-Enabled Transport
(World Bank, Washington, DC, 2020-06)The transport industry has entered a period of rapid advancement, and the pace of change is only increasing. The proliferation of electric vehicles, rapid advances in autonomous vehicles, the advent of the sharing economy and digital platforms, advances in big data and machine learning, and rapidly evolving business models, such as eCommerce and Mobility as a Service (MaaS), are causing profound changes throughout the sector. The development and rollout of fifth-generation (5G) mobile broadband has the potential to not only support, but accelerate these revolutionary changes as today’s digital transport solutions evolve and entirely new opportunities become viable. 5G presents a variety of benefits over previous generations of wireless connectivity, including greater bandwidth, lower latency, capacity to dedicate resources for critical functions, potential for greatly expanded numbers of devices, and easy sharing of data. In some cases, we see dramatic and exponential gains from previous technologies. Each of these 5G features will have an impact in the transport sector, contributing to transport-specific applications. Of these, three key opportunities present themselves: (1) revolutionary advancements in the potential connectivity of vehicles, (2) an increase in the number and ubiquity of connected devices, and (3) improved data availability for transport operations and management. When applying these new technologies to transport, changes can be expected across the sector, with—to some extent—no corner left untouched. While impossible to foresee all potential applications, the study predicts three likely and significant changes: (1) the rise of connected and autonomous vehicles, (2) increasingly smart and efficient logistics, and (3) improved urban transportation with the implementation of MaaS platforms. Figure E.1 highlights some of these key impact linkages between 5G and the transport sector. 5G-enabled vehicles will differ from those in use today, with business models in the transport sector expected to differ significantly from the current paradigm. Connected and autonomous vehicles (CAVs) will bring together a series of changes impacting the sector, including connectivity, electrification, autonomy, and new business models such as MaaS. While the connectivity provided by 5G represents only one enabling facet of this equation, it fundamentally changes the overall potential scope and viability of the model. -
Publication
Improving Climate Resilience of Federal Road Network in Brazil
(World Bank, Washington, DC, 2019-05)Although Brazil is the fifth largest country in the world, it has a relatively low number of natural hazards. However, its exposure to natural hazards has increased relative to other countries because of insufficient preventive actions in the past, resulting in more damage from natural hazards to both infrastructure and human lives than countries of comparable size would incur. Brazil faces an increasing risk of natural disasters, in particular floods and landslides. The objective of the study is to strengthen capacity of geohazard disaster resilience of federal highway infrastructure in Brazil through reviewing disaster risk management (DRM) capacity for federal road infrastructure and case studies of applying innovative methodologies for assessing disaster risk and evaluating economic benefits of resilience countermeasures. Although floods and landslides are the most recurrent natural disasters in Brazil, this report focuses on the latter, leaving floods for future studies. This report carefully describes how three innovative methodologies that, if properly applied, could improve the effectiveness of landslide risk management, thus reducing economic and human impacts. The report begins with diagnostics of the institutional capacities of geohazard risk management at the federal government level in Brazil. Chapters 1 and 2 include the backgrounds of natural disasters, road systems, and geohazards on roads in Brazil and a review of the road geohazard risk management with overviews of the following areas: institutional capacity and coordination, system planning, engineering designs, operation and maintenance, nonstructural measures, and contingency programming. Then, Chapters 3 and 4 describe the case study of application of the three innovative DRM assessment methodologies. Finally, Chapter 5 shows the suggestions and recommendations for the next steps. -
Publication
Prioritizing Infrastructure Investments in Panama: Pilot Application of the World Bank Infrastructure Prioritization Framework
(World Bank, Washington, DC, 2016-04)Infrastructure services are significant determinants of economic development, social welfare, trade, and public health. As such, they typically feature strongly in national development plans. While governments may receive many infrastructure project proposals, however, resources are often insufficient to finance the full set of proposals in the short term. Leading up to 2020, an estimated US$836 billion - 1 trillion will be required each year to meet growth targets worldwide (Ruiz-Nunez and Wei, 2014; World Bank). Global estimates of infrastructure investments required to support economic growth and human development lie in the range of US$65-70 trillion by 2030 (OECD, 2006), while the estimated pool of available funds is limited to approximately US$45 trillion (B20, 2014). The past twenty years have also seen a shift towards decentralized infrastructure planning. Many subnational governments, regional entities, and sector agencies have been delegated responsibility for infrastructure planning promote local responsiveness, but responsibility for allocating funds often remains with a centralized finance agency (CFA). While constituencies may propose numerous projects, governments often have insufficient financial resources to implement the full suite of proposals. This report presents the IPF methodology and results of the pilot application to a select set of transport and water and sanitation projects in Panama. The report first gives background information on infrastructure prioritization in Panama, then follows with a description of the IPF in technical and implementation terms. Next, we present the results of the pilot and close with recommendations for implementing IPF to a wider set of projects. -
Publication
Philippine Transport Infrastructure Development Roadmap Framework Plan: Executive Summary
(World Bank, Washington, DC, 2014-10)Various transport-related agencies and local governments develop their respective transport plans or strategies to address bottlenecks and improve outcomes in the transport sector. However, to be able to bring a more focused or targeted intervention that is more inclusive, these various strategies need to focus on establishing interconnectivity between key urban growth centers and between lagging and fast-growing regions, and creating supporting institutions that promote greater integration. Upon the request of the National Economic and Development Authority, a framework plan was developed to provide policy-makers with a strategic framework to help identify the transport needs of the Philippines and guide in implementing an integrated, more coordinated approach to establishing stronger transport infrastructure linkages to support the country’s inclusive growth agenda. The framework plan was developed under the guidance of a vision and goals developed by stakeholders across the Philippines. This comprehensive vision can be summarized as ‘Bringing us all closer together for prosperity.’ The geographic focus of the Framework Plan includes all of the Philippines outside of Metro Manila. This Framework Plan does not replicate the work being done by the Japan International Cooperation Agency (JICA) for Metro Manila (the JICA study covers Metro Manila with an approximate radius of 100 kilometers and is being conducted to evaluate specific transport infrastructure projects for the Metro Manila area). Future improvements and needs of transportation infrastructure to meet the demand for long-distance transport to and from Metro Manila and to other urban/economic centers in the Philippines are considered; nevertheless, national-level strategies recommended in this study affect all areas of the Philippines. -
Publication
Cairo Traffic Congestion Study : Executive Note
(Washington, DC, 2014-05)The Greater Cairo Metropolitan Area (GCMA), with more than 19 million inhabitants, is host to more than one-fifth of Egypt's population. The GCMA is also an important contributor to the Egyptian economy in terms of GDP and jobs. The population of the GCMA is expected to further increase to 24 million by 2027, and correspondingly its importance to the economy will also increase. Traffic congestion is a serious problem in the GCMA with large and adverse effects on both the quality of life and the economy. In addition to the time wasted standing still in traffic, time that could be put to more productive uses, congestion results in unnecessary fuel consumption, causes additional wear and tear on vehicles, increases harmful emissions lowering air quality, increases the costs of transport for business, and makes the GCMA an unattractive location for businesses and industry. These adverse effects have very real and large monetary and nonmonetary costs not only for the economy of the GCMA, but given its size, for the economy of Egypt as well. As the population of the GCMA continues to increase, traffic congestion is becoming worse and the need to address this congestion is becoming more urgent. This report documents the results of the study. The results of this study should be of interest to policy-makers and practitioners in the GCMA, the Egyptian Government, other cities facing similar problems, and international financial institutions.