49017 Water Working Notes Water Working Notes Note No. 21, June 2009 DIRECTIONS IN HYDROPOWER: SCALING UP FOR DEVELOPMENT Water Working Notes are published by the Water Sector Board of the Sustainable Development Network of the World Bank Group. Working Notes are lightly edited documents intended to elicit discussion on topical issues in the water sector. Comments should be e-mailed to the authors. Disclaimers The findings, interpretations, and conclusions expressed in this paper are entirely those of the authors and should not be attributed in any manner to the World Bank, to its affiliated organizations, or to members of its Board of Executive Directors or the countries they represent. The material in this work is copyrighted. 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This pa- per and its annexes are available online at http://www.worldbank.org/water. © 2009 The International Bank for Reconstruction and Development/ The World Bank. All rights reserved. ii TABLE OF CONTENTS Abbreviations and Acronyms...................................................................................................... v Acknowledgements ....................................................................................................................vii Executive Summary......................................................................................................................ix 1 Introduction........................................................................................................................... 1 2 Hydropower Infrastructure and Development.................................................................. 2 Hydropower in the Global Energy Context....................................................................... 2 New Dimensions of Value.................................................................................................... 2 Focus on Sustainable Infrastructure ................................................................................... 5 Views from Stakeholders...................................................................................................... 6 Risks Remain.......................................................................................................................... 7 Opportunities ........................................................................................................................ 8 Constraints........................................................................................................................... 10 3 The World Bank Group's Role in Scaling-Up Hydropower ............................................. 12 The World Bank Group's Re-Engagement in Hydropower............................................ 12 Strategic Framework.......................................................................................................... 14 World Bank Group's Value-Added................................................................................... 15 Areas of Focus .................................................................................................................... 16 Two-Track Concept for Scaling Up................................................................................... 17 Track 1: Implement Investment Lending Opportunities................................................. 18 Track 2: Strengthen Sectoral Foundations....................................................................... 19 4 Looking Ahead ................................................................................................................... 21 APPENDIX I: World Bank Group Hydropwer Portfolio (under separate cover) APPENDIX II: The Views of the Industry (under separate cover) Boxes Box 1: A note on terminology ............................................................................................. 3 Box 2: Water, power & regional cooperation in Africa.................................................... 4 Box 3: Realizing opportunities, managing risks.................................................................. 8 Box 4: Hydro Value Chain.................................................................................................. 16 Figures Figure 1: Human Development and Electricity Consumption ........................................ 2 Figure 2: Ethiopia: Rainfall Variation Around the Mean and GDP.................................. 3 Figure 3: Projected Percent Change in Runoff for 2030 and 2050 at the Catchment Level ..................................................................... 5 Figure 4: Economically Feasible Hydro Potential & Production by Region .................. 8 Figure 5: Growth in Renewable Energy ............................................................................. 9 iii Figure 6: Hydropower in Developing Countries in MW .................................................... 9 Figure 7: World Bank Group: Hydropower Components by Approval Year ............... 12 Figure 8: World Bank Group Hydropower Components by Region ............................. 13 Figure 9: World Bank Group Support of Hydro Components ........................................ 14 Figure 10: Active Projects Breakdown by Value ............................................................. 14 Tables Table 1: Approvals of Major Hydropower-Related Infrastructure (2003­2008)............ 13 iv ABBREVIATIONS AND ACRONYMS Bank World Bank (IBRD/IDA) Board World Bank Group Board of Directors CEIF Clean Energy Investment Framework CWRAS Country Water Resources Assistance Strategy EAP East Asia and Pacific Region ECA Europe and Central Asia Region FY Fiscal Year GDP Gross Domestic Product GW Gigawatt IBRD International Bank for Reconstruction and Development IDA International Development Association IEA International Energy Agency IFC International Finance Corporation IHA International Hydropower Association IPCC Intergovernmental Panel on Climate Change IWRM Integrated Water Management LCR Latin America and Caribbean Region MDB Multilateral Development Bank MDG Millennium Development Goal MENA Middle East and North Africa Region MIGA Multilateral Investment Guarantee Agency MW Megawatt NGO Non-governmental Organization OECD Organization for Economic Co-operation and Development SAR South Asia Region SIAP Sustainable Infrastructure Action Plan TW Terawatt UN United Nations UNDP United National Development Programme UNEP United Nations Environment Programme WBG World Bank Group WWF World Wildlife Fund for Nature v ACKNOWLEDGEMENTS This report was prepared by a World Bank Group team led by Daryl Fields, including Lars Odegard, Laura French and Geoff Revell (Consultant), under the overall guidance of Jamal Saghir, Director En- ergy, Transport and Water and Abel Mejia, Water Sector Manager. The team gratefully recognizes the valuable comments and suggestions from numerous World Bank, IFC and MIGA staff from regional op- erations as well as sector specialties. The Water, Energy, Environment and Social Development Sector Boards provided additional guidance. We acknowledge in particular the advice of Amarquaye Amar, Vahid Alavian, Darius Lilaoonwala, Maher Abu-Taleb, Guy Alaerts, Susan Bogach, Moez Cherif, Elena Correa, Ousmane Dione, Pankaj Gupta, Rafik Hirji, Ron Hoffer, Iftikhar Khalil, Peter Kolsky, Fernando Lecaros, Roger Morier, Dejan Ostojic, Alessandro Palmieri, Judith Plummer, Bob Taylor, Dana Younger, Susanne Scheierling, Marcus Wishart, Heather Worley, and Mi Hyun Bae. vii viii EXECUTIVE SUMMARY The role of hydropower and multi-purpose water infrastructure is expanding, with important opportuni- ties for poverty alleviation and sustainable development. The World Bank Group, encompassing the World Bank, IFC and MIGA, recognizes this timely and important period for hydropower. Since the 2003 commitment of the World Bank to re-engage in water infrastructure, lending has in- creased significantly. This document, Directions in Hydropower, outlines the World Bank Group's (WBG) further commitment. It summarizes key issues in scaling up hydropower: the rationale and context for sector expansion, as well as the risks. It describes the World Bank Group's role in scaling up and sets out priorities for both lending and non-lending activities to strengthen the foundations of the industry. The goal is to maximize the strategic value of hydropower investment to economically, environmentally and socially sustainable development. Hydropower Infrastructure in Development and Poverty Alleviation The role of hydropower infrastructure in development and poverty alleviation is increasingly multi-fac- eted. In addition to bringing electricity to the 1.6 billion people who lack access, hydropower offers a hedge against volatile energy prices and can play an important role in energy trade and regional power pools. The imperatives of water management are also repositioning hydro infrastructure. A deeper understanding of potential harmful impacts of significant hydrological variability on eco- nomic growth puts a premium on better water resources management and infrastructure, especially in the world's 260 international river basins. Hydropower infrastructure also plays two critical roles in meeting the climate change challenge: renewable hydro energy offers an alternative to fossil fuels, and well planned, high-quality water resources infrastructure can help countries adapt to changes in hydrology. A decade of learning about environmental and social risks has shifted the definition of sustainable hydropower infrastructure. The World Commission on Dams, the followup work of the UN Dams and Development Program, sustainability initiatives of both industry and nonindustry organizations, and the requirements of financing institutions have redefined the standards for environmental and social man- agement. On this basis, there is a growing openness in the NGO community to consider hydropower a tool in a low-carbon future. However, hydropower is and will remain risky and sometimes controversial. Implementation of good practices is challenged by lack of capacity throughout the industry and in client countries, and by weak regulatory and policy frameworks. Inherent complexities and the multisectoral, multi-objective nature of hydropower projects further emphasize the importance of a strong risk management ap- proach to the sector. This framework has to encompass both careful project preparation and supervi- sion (including efficient decision making) and strengthening of the sector's basic foundations along the entire life cycle of hydropower investments. Current Opportunities and Constraints Hydropower currently accounts for about 20 percent of the world's electricity supply and over 80 percent of the supply from (nonbiomass) renewable resources. Scaling up hydropower is not limited by physical or engineering potential: OECD countries have exploited over 70 percent of economi- cally feasible potential. Yet only 23 percent of hydropower potential in developing countries has been exploited. Indeed, 91 percent of unexploited economically feasible potential worldwide is located in developing countries, with one quarter in China. In absolute terms, the 1330 GW of the conservative ix estimate of unexploited potential in developing countries far exceeds the existing installed capacity of 437 GW in developing countries and 315 GW in North America and Europe. The challenges are to define hydropower's strategic role at the country, basin, and regional levels, and to mobilize adequate resources and skills to realizing its value in an environmentally and socially sustainable manner. Key constraints in scaling up hydropower infrastructure lie in lack of financing, lack of comprehensive planning and adequately assessed project pipelines, limited hydrological data and analysis, and unsettled conditions that discourage private sector participation. The World Bank Group's Role in Scaling-up Hydropower New dimensions of value for hydropower projects, rising standards for environment and social man- agement and governance, and the active participation of a wider range of players create new op- portunities to assist the client countries of the World Bank Group (WBG). This document describes two parallel but reinforcing tracks for action by the WBG: increased investment and sector strengthening. On the first track, the WBG must lead its own scale-up through direct investment in good-quality proj- ects, executed in a timely manner. After a decline in lending during the late 1990s and early this de- cade, WBG lending for hydropower has increased from a three-year average of US$250 million per year (2002­04) to US$500 million per year (2005­07) to more than US$1 billion in fiscal year (FY) 2008. Consistent with industry-wide trends, the World Bank Group's lending prospects in hydropower shows renewed strength, with more than US$2 billion in possible projects for the next several years. Strong programs are emerging in Africa and South Asia, but greater focus is needed in Central Asia and Latin America, and in accelerating broad basin-level plans. These projects must be measured not only in terms of lending volumes but also in terms of sustainability and the triple bottom line of economic, so- cial and environmental value. On the second, parallel track of sector strengthening, the WBG has an important role in leveraging sources of finance and broadening development benefits by strengthening the basic foundations of the sector. The WBG's Directions in Hydropower identifies five priorities for engagement: 1. Scale up financing: Address financial barriers and constraints to realizing projects, and increase re- sources to realize good practice in project preparation and supervision. 2. Promote good practice: Mainstream current knowledge and invest in continuous improvement, with specific emphasis on governance (for example, procurement), environmental management (for example, environmental flows), social inclusion (for example, indigenous communities) and hydrological data and analysis. 3. Strengthen planning: Support governments, through adequate planning and enabling policies, regulatory frameworks, and institutions, to help realize the strategic value of hydropower. This task calls for significant investment in prefeasibility studies, for development of a pipeline of quality proj- ects, and for river basin planning to ensure identification of high-value storage sites. 4. Leverage regional development: Explore synergies among complementary projects and develop- ment opportunities for the benefit of local communities, either directly through benefits-sharing or indirectly through poverty-targeted revenue management. 5. Build partnerships: Enhance cooperation among internal and external players to strengthen fi- nancing options and maintain global dialogue on sustainability. Specific attention to climate change is embedded in each element. x 1 INTRODUCTION After a period of stagnation, the character of hydropower infrastructure is changing. Emerging global dynamics are recasting the role and value of hydropower in development, recognizing its potential contribution to a complex web of energy security, water security and regional development and inte- gration. As a renewable energy resource, hydropower's dual role in climate change adaptation and mitigation is critically important. As new dimensions of value evolve, so does progress in managing the risks and negative impacts associated with development projects, particularly those related to ecosys- tem services and social inclusion. Increasingly, the international community is embracing sustainable development as the paradigm for hydropower investments. Scaling up hydropower is not limited by physical or engineering potential. Rather, the challenges lie in defining hydropower's strategic value and managing risks in each country and basin which can in- volve complex trade-offs. This requires careful attention to project preparation and supervision as well as an improved enabling environment. These, in turn, require adequate resources, knowledge, and skills across multiple stakeholders. The World Bank Group (WBG) has a clear role to play in maximizing the development potential of hy- dropower resources. It must lead its own scale-up through direct investment in development-driven, quality projects, executed in a timely manner. It has a specific role in addressing complex projects that demand transparent, well-informed trade-offs and integration of environmental and social values, alongside support to the range of hydropower infrastructure investments, including rehabilitation and across the range of sizes. In addition, its role in facilitating policy dialogue and integrating diverse play- ers embraces the evolving roles and partnerships of the public and private sectors. Hydropower is the quintessential sustainability opportunity and challenge in that its planning and implementation must attend adequately to economic, social, and environmental considerations. This document is structured to weave these three considerations together; it does not address them in separate chapters. A discussion of financing, for example, includes the possibility of green bonds, and sector planning encompasses strategic environmental assessment. The intent is to capture the benefits of integration without sacrificing attention to any contributing element. This document is presented in three parts. The first part--Hydropower Infrastructure and Develop- ment--describes the role of hydropower in sustainable development. Potential benefits, risks, oppor- tunities and constraints are discussed. The second part--the World Bank Group's Role in Scaling Up for Development--outlines the role of the World Bank, the IFC and MIGA in supporting sustainable hy- dropower infrastructure. It describes the World Bank Group's current activity and sets out a two-track approach for lending and non-lending activities. The third part draws overall conclusions in "Looking Ahead". 1 2 HYDROPOWER INFRASTRUCTURE AND DEVELOPMENT Hydropower in the Global Energy Context Hydropower accounts for roughly 20 percent of the world's electricity supply and over 88 percent of (non-biomass) renewable energy produced. Production, however, is unevenly distributed: nearly 45 percent is in developed countries such as Norway, Canada, and the United States. In these coun- tries hydropower is the backbone for both electricity supply and water management infrastructure, and has helped shape economic growth. Globally, only 30 percent of the hydropower potential that would be economically feasible to develop is operational; 91 percent of the unexploited potential is located in developing countries, with nearly 25 percent in China. The amount of potential power is tre- mendous. In Sub-Saharan Africa, for example, a potential 925 TWh/yr (about 250 GW) is unexploited. If Africa were to develop the same share of its hydropower potential as Canada has (66%), it would cre- ate an 800 percent increase in electricity supply and, with complementary investments in transmission and distribution, could make access to electricity universal on the continent with multiple additional benefits for water management and regional integration. New Dimensions of Value Emerging trends, driven by more sophisticated energy markets, climate change, and increased atten- tion to water management and regional integration, are changing hydropower's potential contribution to sustainable development. The electricity access agenda remains critical. Currently, the average rate of electricity access is below 50 percent in more than half of developing countries. Rates are particularly low in Africa (6 percent in the Democratic Republic of Congo, for example) where limited access is estimated to reduce GDP growth by 2­4 percent. Even in countries with higher rates, the absolute numbers of poor people without Figure 1 Human Development and Electricity access are significant. In India, for example, Consumption where access exceeds 55 percent, some 500 million are still without power. The poverty and 1.0 economic growth consequences are manifest score 0.9 in health, education, the investment climate, 0.8 and environmental quality. Energy available Index to citizens in countries with the highest Human 0.7 Development Index scores is up to eight times 0.6 higher than in those with the lowest scores (Fig- 0.5 ure 1). Development 0.4 Volatile oil prices have disproportionate effects 0.3 in poorer regions. Each US$10 increase in the Human price of a barrel of oil reduces GDP by 0.76 per- 2,000 4,000 6,000 8,000 10,000 12,000 14,000 16,000 18,000 20,000 cent in countries with per capita GDP between US$300 and US$900, and by 1.47 percent-- Electricity consumption per capita (kWh) nearly double--in countries with per capita Source: Modified from Human Development Report 2006: Beyond GDP less than US$300.1 The implications for hy- Scarcity: Power, poverty and the global water crisis (UNDP, 2006). 1World Bank. 2005. The Impact of Higher Oil Prices on Low Income Countries and the Poor: Impacts and Policies. ESMAP Knowledge Exchange Series. 2 dropower are twofold: first, in many countries, Figure 2 Ethiopia: Rainfall Variation around the where hydro is already the least-cost option for Mean and GDP Growth power generation, volatile oil prices will further increase its cost advantages; second, in the 80 25 face of both oil price volatility and foreign ex- mean 20 change pressures, locally sourced hydropower 60 15 growth can be a meaningful protective hedge.2 the 40 10 20 5 GDP The imperatives of water management also are 0 in repositioning hydropower infrastructure in the around 0 ­5 development equation. Developing countries ­20 ­10 change heavily dependant on rainfed agriculture are ­15 variation ­40 ­20 particularly vulnerable to hydrological variabil- ­60 ­25 ity (Figure 2). Some can be considered "hos- Percent rainfall ­80 ­30 tage to their hydrology," with very limited ability to manage extreme weather events3and an 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 Year increasingly complex and contentious web of Percent water demands. The Tanzania Country Water Rainfall variation around the mean GDP growth Resources Assistance Strategy (2006), for ex- ample, cites abundant water, but infrastructure Source: Ethiopia: Managing Water Resources to Maximize Sustainable Growth. Country Water Resources Assistance that cannot meet increasing demand or pro- Strategy (World Bank, 2006) vide the necessary buffer against shocks from floods and droughts.4 In the developed world as well, the need to manage difficult hydrology is a cornerstone of major dam projects underway, and is increasingly driving revisions in operation. In this context, hydropower projects, and particularly those combined with storage projects, should adopt the principles of integrated water resources management (IWRM) to take into account mul- tiple users of water and multiple objectives in managing and regulating it. IWRM should be pursued to maximize hydropower's environmental, social, and broader economic ("triple bottom line") benefits. These benefits may be public or private, reve- nue- or non-revenue generating. IWRM calls for project identification, design, and operations to take into account such diverse water uses Box 1 A word on terminology as irrigation, navigation, fisheries, and drink- ing water. While multiple uses require careful The scope of this plan extends beyond single-purpose energy infrastructure. Given the increasing importance financing and project management, building of climate change, water security, and regional coop- on synergies can generate broader benefits at eration, the plan encompasses water development and small incremental cost. management that serves multiple objectives, among which energy may be a subsidiary goal. For this reason, Hydro infrastructure has important spatial di- the terms "hydropower" and "hydro infrastructure" are mensions, with potential benefits to regional used interchangeably to encompass single and multipur- pose investments. development. Hydropower's contribution to 2 Without appropriate management, high oil prices can also lead to overexploitation of hydro resources, with environmental, social, and longer-term economic consequences. 3 Grey, D. and C. Sadoff (2007), "Sink or Swim? Water Security for growth and development" in Water Policy 9 (2007) 545­571. 4 The World Bank. 2006. United Republic of Tanzania. Water Resources Assistance Strategy: Improving Security for Sustaining Livelihoods and Growth. 3 energy access extends beyond additional generating capacity to regional, national and trans- boundary systems integration and efficiency. Increased regional integration, through emerging power pools and coordinated electricity grids--particularly in western and southern Africa, on the Indian subcontinent, in the Mekong region of East Asia, and in Europe and Central Asia--takes advantage of hydropower's differentiated services and capabilities to stabilize power grids and in- crease the efficiency of the system as a whole. Additional value is derived from: · Ancillary services such as black start capability,5 load following, fast-responding reserves · Balancing generation across areas with different water flow reliability · Coordinating with thermal units to minimize operational costs of the system as a whole. The expansion of pumped storage investments in Eastern Europe, for example, demonstrates the value of hydropower's regulating capacity and load-following capabilities. A corollary to regionalization of energy systems, water management is increasingly focused at the river basin level, regardless of national borders. A regional development approach addresses both upstream and downstream riparian needs, expanding the scope and benefits of water management beyond physical distribution of water and setting a foundation for regional cooperation. Africa, in particular, is addressing the political reality of its multiple states, markets, and natural resources and is increasingly interested in moving hydropower and water infrastructure investments from its national to its regional agendas. Water management also has broader security implications in many parts of the world. The potential of regional hydropower as a tool for regional cooperation and development is an increasingly important dimension of value. Hydropower infrastructure investments offer entry points for broadbased community, regional, and transboundary development. Investments in roads, social infrastructure, communications, and skills- building in large projects can be leveraged to increase benefits to economic development, or to an- chor growth poles across economic zones. The intent in such projects is not to overburden individual investment projects, but to recognize the potential synergies and efficiencies available when hydro- power infrastructure is considered within the broader development landscape. Box 2 Water, power, and regional cooperation in Africa African countries share 34 rivers that cross at least one national border. As many as 28 are shared by 3 or more coun- tries. In fact, every country in Africa has at least one international river. Not surprisingly, transboundary water resources management lies at the heart of development in many of these countries. Ethiopia, for example, sits at the headwaters of three significant transboundary rivers whose waters are shared with nu- merous riparian states. Ethiopia's Country Water Resources Assistance Strategy (CWRAS) emphasizes the potential for regional cooperation in power production to strengthen regional relations and promote increased economic coop- eration and integration. In addition to hydropower, the CWRAS outlines the downstream benefits of cooperatively con- structed dams. These include regulation of sediment transport and the potential for storage in the Ethiopian highlands to reduce evaporation in the river system, thereby increasing the total volume of water available to the riparians. Hydropower is and will remain an essential tool in managing both water and energy pressures--a regional oppor- tunity and challenge. Beyond project development, scaling up hydropower in Africa must be accompanied--or preceded--by investments in diplomacy and institution building across national boundaries. As in the Nile Basin, the Senegal River Basin, and the Zambezi, regional programs and visions for development need to be nurtured to ensure hydropower development brings security and peace, and avoids externalities and resource management conflicts. This calls for a long-term approach punctuated with short-term results, and a consistent long-term commitment to ca- pacity building coupled with project implementation in the short term. 5 The ability to restart generation without external energy or electricity source. 4 Figure 3 Projected Percent Change in Runoff for 2030 and 2050 at the Catchment Level Projected % Change in Runoff 2030 Projected % Change in Runoff 2050 Driest projection Middle projection Wettest projection < ­50 ­20 to ­5 0 to +5 +20 to +50 < ­50 ­20 to ­5 0 to +5 +20 to +50 ­50 to ­20 ­5 to 0 +5 to +20 > +50 ­50 to ­20 ­5 to 0 +5 to +20 > +50 Source: Adapted from World Bank. 2009. "Water and Climate Change: Understanding the risks and making climate-smart invest- ment decisions", Washington, DC. (forthcoming). Hydropower infrastructure plays a dual role in meeting the climate change challenge. It is the largest source of affordable renewable energy, and as a low-carbon fuel, plays a critical role in mitigating greenhouse gas emissions.6 For example, increasing the share of hydro in the Indian energy mix from 24 to 35 percent, as proposed by the Indian government, will avoid 138 mt CO2 per year from alter- native coal generation, equal to 8.5 percent of emissions in India in 2015. Indirectly, hydropower can leverage other renewables such as wind and solar by providing reserve capacity to meet peak de- mands and enhancing reliability of power grids. At present, hydropower accounts for more than half of the World Bank Group's renewable energy portfolio. Hydropower infrastructure also plays a role in climate adaptation. Climate change will exacerbate hydrologic variability, the consequences changes in the long term water balance and intensification of extreme weather events, and the challenge of managing a scarce resource subject to multiple demands (Figure 3). Infrastructure management and operations will need to adapt to more variable hydrology while also taking on the role of water management, especially where multiyear storage is economically, environmentally, and socially feasible. Among a variety of adaptation tools, hydro infra- structure can help meet increasingly demanding levels of infrastructure for water security. 6The World Bank Group considers hydropower of all sizes and configurations to be renewable. 5 Focus on Sustainable Infrastructure There has been a fundamental shift in the definition of quality in hydropower projects, driven by the varied imperatives of sustainable development. Poorly identified and managed environmental risks and a narrow approach to resettlement issues, based on compensation for land, contributed signifi- cantly to the move away from hydropower investments in the 1990s. It is now broadly recognized that hydropower must be developed in the context of broader development goals, including: i. Internalizing the impacts on affected populations ii. Responsible environmental management (for example, ecosystem services and social impacts, both upstream and downstream of facilities, and linkages, with a focus on ecosystem services) iii. Leveraging of regional development opportunities for social inclusion, poverty alleviation, and so- cial development (for example, social infrastructure, benefit sharing with poor and local communi- ties--beyond compensation) iv. Integrated water and energy management (for example, more informed and transparent tradeoffs across economic, social, and environmental values) v. Institutional development (for example, compliance and sustainability of operations.) The shift is the result of a decade of increased understanding of and engagement with environmental and social risks once considered overwhelming. The World Commission on Dams produced a useful reference document that identifies core values and outlines important strategic priorities for dams. The United Nations Environment Programme's (UNEP) followup to the commission, the Dams and De- velopment Project,7 issued its final report in July 2007. Dams and Development: Relevant Practices for Improved Decision-Making is a positive and constructive compendium addressing environmental and social concerns. These efforts complement the industry's own efforts to raise awareness and improve practices through the International Hydropower Association's Sustainability Assessment Protocol8 and website for good practices. Consistent with these efforts, World Bank Group projects are themselves subject to the "most sophisticated set of policies, operational procedures, and guidelines amongst the international donor community."9 These are prompting innovative approaches to sustainability. The challenge now is to systematically and effectively apply these enhanced environmental and so- cial standards. Many countries understand the benefits of good practice, but considerable work is needed to embed appropriate regulatory and policy frameworks and capacity into project design, construction, and operations, and to ensure developers understand and employ such practices. Views from Stakeholders The unanimous endorsement of the Water Resources Sector Strategy (2003)10 by the World Bank Group Board reflects a strong view that infrastructure investment is central to the Bank's mission of poverty reduction. Several countries' response went further to call on management to immediately support two high-risk, high-reward projects in each region. At both country and regional levels, hydropower is emerging as a critical tool for renewable energy and water management. At a 2006 Africa Inter-Minis- terial Conference on Hydropower and Sustainable Development, ministers committed to "working to- gether to unlock the hydropower potential of Africa as a major renewable energy option to promote sustainable development, regional integration, water and energy security and poverty alleviation." 7 http://www.unep.org/dams 8 http://www.hydropower.org 9 World Commission on Dams (2000), Dams and Development: A New Framework for Decision-Making. Earthscan. 10 The World Bank. 2003. "Water Resources Sector Strategy." Washington, D.C. 2003. 6 The Government of India has set the target for India's optimum power system mix at 40 percent from hydropower and 60 percent from other sources. The hydropower industry is operating at capacity. Up to 2008, consultants and equipment manufac- turers experienced a sharp upswing in business and there is cautious optimism about the industry's growth prospects. However, fears persist about the risks of such projects, especially in low-capacity countries. Governance and corruption are considered the "most problematic issues."11 Some non-governmental organizations (NGOs) remain critical of dams and hydropower, although partnerships are emerging. NGOs focus on the key concerns of environmental impacts, resettle- ment and attendant social and livelihood consequences. Some groups maintain a strong and vocal single-objective philosophy and many follow the World Commission on Dams framework, variously supporting only the strategic priorities or the full set of 26 guidelines. At the same time, there is a grow- ing recognition among NGOs of hydropower's potential contribution to meeting energy demands as a low-carbon, renewable energy resource.12 Adopting a development perspective, they emphasize the risks and difficulties of "doing dams right" and advocate careful environmental management and benefits-sharing. While this debate continues, there is a healthy recognition of the need to balance the discussion by keeping the principles of water management and by implementing them pragmati- cally. For example, several major NGOs are currently collaborating with the World Bank Group on hy- dropower initiatives and are active members of the Hydropower Sustainability Assessment Forum.13 Risks Remain Notwithstanding the expanding value of hydropower, and the progress made in understanding key elements of sustainability, risks remain. These risks are inherent in the complexities and uncertainties of hydropower projects: high capital costs; uncertain geology, construction scheduling, and contract management; climate change and variable hydrology; evolving and uncertain market rules; multi- disciplinary and cross-sectoral project design; and corruption. Of particular concern are the risks as- sociated with environmental management, social inclusion, and appropriate sharing of benefits and rents. These are becoming more complex and less predictable in the face of changing hydrology and increasing social pressures. In Lake Victoria, for example, the combination of natural and human inter- ventions--including hydropower projects--has resulted in serious declines in lake levels and disruption of livelihoods. On the social side, some countries are introducing new policies to share benefits, but the mechanisms to implement them are poorly defined. These risks can vary considerably across projects. All hydropower projects are, and will remain, risky and sometimes controversial. While small run-of-river projects and rehabilitation projects are consid- ered less risky because there are fewer environmental and social impacts, they can be particularly subject to hydrological risks and, in the case of rehabilitation, unforeseen equipment and civil works complications. 11Casartelli, Gian (2007) "The Role of the World Bank in Hydropower and Water Resources Optimization: The Views of the Industry." Prepared for the World Bank. 12For example, WWF includes 200 GW of hydropower in its recent energy scenario for climate change, mainly from new large investments (WWF (2007) Climate Solutions: WWF's Vision for 2050.) 13The Hydropower Sustainability Assessment Forum (HSAF) is a collaboration of representatives from different sec- tors who aim to establish a broadly endorsed sustainability assessment tool to measure and guide performance in the hydropower sector. They are jointly reviewing and recommending improvements to the IHA Sustainability As- sessment Protocol (2006). The IHA Sustainability Assessment Protocol was developed as a measuring tool to assess social, environmental and economic performance of hydropower projects and operating facilities against criteria described in the IHA Sustainability Guidelines (2004). Both the IHA Sustainability Guidelines (the "Guidelines") and the IHA Sustainability Assessment Protocol (the "Protocol") can be viewed at www.hydropower.org. 7 Hydropower projects, therefore, emphasize the Figure 4 Economically Feasible Hydro Potential & need for transparent and effective risk man- Production (by World Bank Region) agement in project identification, preparation, construction, and operations. Good risk man- 2,000,000 agement, a core function of the developer, is 1,800,000 also the purview of financiers (in ensuring good 1,600,000 project preparation), governments (in delineat- 1,400,000 ing and regulating public good aspects and 1,200,000 offtake provisions), and stakeholders (in ensur- 1,000,000 ing good project preparation and monitoring Wh/year G 800,000 post-construction implications). 600,000 400,000 Opportunities 200,000 In developing countries, economically feasible 0 potential hydropower capacity exceeds 1,900 ECA LCR SAR GW, 70% of which (1330 GW) is not yet exploit- China) China MENA OECD Africa ed. This compares with current installed capac- (wo Non-OECD ity of 315 GW in Europe and North America, and 730 GW worldwide. On a regional basis, EAP High only 7 percent of economically feasible hydro- power potential has been exploited in Africa, Economically feasible Production by hydro hydropower potential plants in 2004/05 18 percent in East Asia and the Pacific, 21 per- cent in the Middle East and North Africa, 22 Source: Based on International Journal on Hydropower and Dams, World Atlas 2006 and various national statistics. percent in Europe and Central Asia, 25 percent in South Asia and 38 percent in Latin America and the Caribbean (Figure 4). These measures cover only potential new (greenfield) site developments. Additional energy and ca- pacity are available from rehabilitation of existing energy and water infrastructure portfolios, wheth- er by restoring original capability by repairing or replacing infrastructure components; upgrading ca- pability through new technology, equipment, or design; redesigning infrastructure functions and ser- vices to meet emerging demands and market or system opportunities; or modifying allocations and management of water resources (reoperation) for a different set of outcomes, including ecosystem services. Another key consideration is that rehabilitation offers advantages such as shorter project preparation and development time, lower risk profile, greater cost-effectiveness, and the potential to improve environmental and social conditions. Rehabilitation will not fully meet the demand for energy services and should be seen as part of a package with new investments; however, it can in- crease value by improving the old, with benefits across a range of criteria, including new sources of revenue and ecosystem services. Industry statistics indicate a sharp rise in investment in the recent past. This increase reflects volatile energy prices, efforts to reduce carbon emissions, and a tentative but growing confidence in the sec- tor. Hydropower is a major contributor to the growth of renewable energy, outpacing capacity growth in wind, biomass, geothermal and solar (Figure 5). Much of this growth has come in developed and emerging economies. Approximately 7 percent of total potential is currently under construction (Fig- ure 6), of which the WBG's share falls below 10%. Hydropower as a renewable energy plays a key role in the response to climate change. The Fourth Assessment Report of the Intergovernmental Panel on Climate Change confirmed that the warming of the climate system is unequivocal, and will be accompanied by changes in hydrological pat- 8 terns.14 Potential impacts will be felt dispropor- Figure 5 Growth in renewable energy (TWh) tionately in poor countries, requiring attention to both mitigation and adaptation. There are 1200 numerous unique opportunities for hydropow- er infrastructure to contribute to both agendas 1000 as both a low-cost, mature, renewable energy 800 source and a tool for water management and Hydropower regulation. 600 Some important issues related to hydropower's 400 Wind + biomass + role in climate change need further consider- geothermal + solar ation. First, where present, methane emissions 200 from reservoirs must be investigated and em- 0 bedded in project assessments and environ- mental management plans. While it is thought 1981 1983 1985 1987 1989 1991 1993 1995 1997 1999 2001 2003 2005 that emissions are likely associated with anoxic, Source: Energy Information Administration. shallow, tropical reservoirs (versus temperate or deep reservoirs), the science is still emerging Figure 6 Hydropower in Developing Countries in and predicting and measuring emissions pose MW (as of 2006) technical challenges. Second, climate change will alter the hydrological resources on which Under hydropower depends. These alterations need construction 7% Planned to be better understood and incorporated into 23% the design and operation of new and existing hydropower facilities. Specific impacts will vary by location; some could affect economic and environmental feasibility as well as the long- term roles of dams and reservoirs. Specific actions to take advantage of oppor- tunities, while managing risks, are described in Unplanned capacity Installed Box 3. 47% 23% 1,887,635 total MW economically feasible Constraints (calculated with plant factor of 41.8%) Notwithstanding a strong development ra- Source: World Bank: Business Warehouse; Project Staff Appraisal Reports; Project Appraisal Documents; Implementation tionale, enormous technical potential, and a Completion Reports; World Bank Carbon Finance Unit; and IFC. robust body of knowledge on good practices, scaling up hydropower will face some important constraints and barriers. Financing: Based on International Energy Agency (IEA) forecasts and adjusting for universal access to electricity, there is a gap of some 50 percent between financing needs and sources (including re- tained profits, increased efficiencies, private sector investment, and multilateral development bank [MDB] involvement).15 The financing gap is most severe in the poorest countries, where constraints on 14IPCC, 2007: Climate Change 2007. Contributions of Working Groups I, II, and III to the Fourth Assessment, Cam- bridge University Press, Cambridge, UK. 15Stuggins, G. and V. Krishnaswamy (2007). Closing the Electricity Supply-Demand Gap. Energy and Mining Sector Board Discussion paper No. 20. The World Bank 9 Box 3: Realizing opportunities, managing risks of climate change · Access to carbon funds · Embed hydropower in low-carbon growth and cli- · Improve water allocation and sharing of benefits of mate change strategies water management (including flood and drought · Identify priority storage sites as global public goods management) through storage and multipurpose investments · Enhance hydrological assessments of climate-in- duced variations and changes in both new and exist- · Increase flexibility and opportunities for adaptive ing facilities management through project design and water regulation · Accentuate synergies between hydropower and other technologies whose supply source is less reliable · Expand the range of insurance products for hydro- (for example, wind/solar) logical variability and natural disasters · Strengthen research on linkages between water · Improve understanding of potential for emissions management and the economic impacts of climate from reservoirs, and improve techniques for change monitoring IDA lending can limit Bank involvement. Closing this gap is complicated by the inherent complexities of hydropower infrastructure, including the need for financial instruments best suited to the revenue profile and life of investments; the proportion of local versus foreign currency components; and the project's risks (for example, risk guarantees, insurance against hydrological variability, and funds to support improved project preparation). Particularly needed are instruments and approaches to in- crease private sector participation, a critical factor in closing the financing gap. Improvements in the enabling environment include sound policies and institutions, effective regulatory oversight, attention to governance and corruption, and reliable offtakers. Finally, innovative business models are needed to (i) facilitate multipurpose ventures with both public and market benefits and address the associated gap between economic and financial viability; and (ii) capture synergies with environmental protec- tion efforts, such as payment for environmental services or green bonds for carbon credits. Pipeline: While the potential for power is known, planning and project prioritization are inadequate, leading to increased costs and risks in project preparation.16 In particular, outdated engineering stud- ies need to be updated with new knowledge (particularly of hydrology) and with more detailed con- sideration of environmental and social values including regional impacts and cumulative effects. As a public good, governments need to undertake strategic assessments and prefeasibility studies to de- velop a pipeline of projects and to identify priority storage sites. Availability of quality service firms: Over the past decade of low activity, the hydropower service industry (consultants, construction firms, equipment manufacturers) has contracted.17Current strong demand from developed countries has absorbed much of the industry's already reduced capacity at each point in the value chain, resulting in a shortage of capable professionals, especially in re- gions where safety is a concern. In many developing countries, unclear regulatory and contractual 16For example, bid preparation costs, which can exceed $1 million for each developer, are affected by lack of detail or lack of assurances on project fundamentals. 17"Most industry players agree that the MDBs' weak appetite for hydropower projects had a domino effect on bi- lateral trade; eventually manufacturers, contractors, and consultants were affected, and the entire sector slowed dramatically, with the exception of a few individual countries (e.g., China)." (Casartelli, G. (2007), "The Role of the World Bank in Hydropower and Water Resources Utilization: The Views of the Industry." Prepared for the World Bank. 10 frameworks, unreliable procurement processes, and corruption further compromise access to high- quality firms. Institutions and capacity in client countries: Capacity requirements for hydropower projects are di- verse. Considerable knowledge is now available, but implementation remains a challenge. Proper implementation requires more attention to project budgets, additional appropriate expertise, and ca- pacity building at all levels of the industry (government, services, and developers). Clear government policies that are responsive to local communities are lacking, as are institutional capacity in design and implementation of livelihood programs for affected people. These are challenges with few easy, prescriptive solutions. More broadly, regulatory frameworks for water resources management (espe- cially for transboundary resources) and private sector participation are needed,18 as is capacity to link hydro infrastructure to regional development opportunities. Limited hydrological data, analysis, and modeling: Inadequate data and analysis pose significant risks to hydropower infrastructure. Planning, design, and operations based on poor hydrologic data can severely compromise performance and threaten the water management benefits the infrastructure is designed to generate. Unreliable infrastructure can impose significant cost on the private sector: about 3% of sales in China & Brazil, about 7% in Algeria and more than 10% in Tanzania.19 Climate change accentuates these risks for two reasons: (i) extrapolations of historical data are inadequate for infrastructure design as the past becomes an increasingly poor predictor of the future; and (ii) in the future, the lack of adequate understanding of hydrological resources can lead to sub-optimal operating decisions and serious and unexpected impacts on environmental, social, and economic values, as currently manifest at Lake Victoria. Well-conceived hydrologic analysis and strong technical institutions will support a country's ability to maximize the value of its water resources. In the context of hydropower, for example, effective data and modeling enable planners to match hydrology with the right hydropower investment (e.g., diversion vs. run-of-river). Of particular concern is the basis on which to identify high-value storage sites that can support multipurpose benefits and help manage the chal- lenges of climate change. 18 Education and training are building blocks for capacity in both client countries and the industry. However, only four countries provide complete hydropower programs at the university level (China, Sweden, Norway, and India) and only 12 universitiesó9 of them in Chinaóhave separate hydro departments. Source: Parid, V. and M. Cervan- tes (2006) Luleĺ University of Technology, Sweden. 19 World Bank. (2005.) "World Development Report." Washington D.C. 2005. 11 3 THE WORLD BANK GROUP'S ROLE IN SCALING-UP HYDROPOWER The previous section--Hydropower Infrastructure and Development--sets out the development ra- tionale for hydropower investments and key opportunities, risks and constraints. It is a complex sector that demands skills, knowledge, financial resources and a long term perspective. This section places the World Bank Group within this landscape: its current activities, strategic framework and regional outlooks. It outlines the WBG's two-track approach to addressing priorities for effective and sustainable scaling-up of hydropower resources for development. The World Bank Group's Re-Engagement in Hydropower The WBG's involvement in hydropower development reflects international trends and demands: a significant decline in lending during the 1990s, accompanied by a shift to projects with fewer envi- ronmental and social impacts.20 By the early 2000s, however, several policies repositioned the World Bank Group in terms of infrastructure and risk, and established a renewed framework for hydropower. The Water Resources Sector Strategy, approved by the Board in 2003, stated that significant levels of investment in water infrastructure are required throughout the developing world. The Bank's 2003 Infra- structure Action Plan concluded that "the Bank needs to increase its engagement in infrastructure in light of growing needs, withdrawal of private investors, and a growing recognition that the MDGs can only be met in a multisectoral way." This theme is repeated in the World Bank Group's 2008 Sustainable Infrastructure Action Plan. Lending increased significantly over the last five years. Average new lending between 2002 and 2004 amounted to less than $250 million per year; between 2005 and 2007, that total increased to $500 mil- lion per year. In FY08, new lending exceeded $1 billion, with an increase in larger, stand- alone projects (Figure 7). Sixty-seven hydro- Figure 7 World Bank Group: Hydropower power projects have been approved since Components by Approval Year (FY) FY2003, amounting to US$3.7 billion in WBG (Value of WBG Contribution to Multipurpose contributions (US$3.2 billion for hydropower Hydropower Components) components) to support a total of US$8.5 billion and almost 9700 MW21 in project investments. 1,200 Major projects have been approved in Africa 1,000 (Senegal, Democratic Republic of Congo, Si- 800 erra Leone, and Uganda) and Asia (People's millions 600 Democratic Republic of Laos, India), as have several rehabilitation projects in Eastern Europe US$ 400 (Ukraine, Macedonia, and Georgia). A range 200 of new projects are under discussion in India, Vietnam, Rwanda/Nile Equatorial Lakes, Ethio- 0 pia, Guinea, Brazil, Romania, Turkey, Georgia, 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 and Tajikistan, as are carbon finance projects Source: World Bank: Business Warehouse; Project Staff Appraisal in Russia, Sri Lanka, and Madagascar. The new Reports; Project Appraisal Documents; Implementation Completion Reports; World Bank Carbon Finance Unit; and IFC. 20The exception to this trend was a continuing involvement in projects in China. 21Includes rehabilitation that ensures availability of existing capability at Inga (1300 MW) and plants in the Niger (1338 MW). 12 projects are larger and include a larger propor- Figure 8 World Bank Group: Hydropower tion of new generation (Table 1). Components by Region for FY 2003­2008 In aggregate, the World Bank Group exceeds other multilateral development banks in lending Latin Middle East & North Africa to the hydropower sector. However, on a re- America 2% 2% gional basis, both the Asian Development Bank and the Inter-American Development Bank are Europe & Africa dominant lenders, in absolute terms and in pro- Central Asia 32% portion to total lending. 17% The World Bank Group has adapted product lines and financial instruments over time to meet changing needs and opportunities. Over East Asia the period 1992­2002, the International Bank South & Pacific for Reconstruction and Development (IBRD) Asia 25% 22% and the International Development Associa- tion (IDA) accounted for 99 percent of the Source: World Bank: Business Warehouse; Project Staff Appraisal lending portfolio, and International Financial Reports; Project Appraisal Documents; Implementation Completion Reports; World Bank Carbon Finance Unit; and IFC. Corporation (IFC) the remaining 1 percent. Dur- ing 2003­08, IBRD/IDA's share fell significantly, to 58 percent--mainly because of an absolute decrease in IBRD lending. Over the same period, IFC increased support (to 20 percent), as did carbon finance (to 5 percent), and guarantees (to 17 percent), reflecting increased private sector involve- Table 1: Approvals of Major Hydropower-Related Infrastructure in US$ (2003­08) Year Region (Country) Project WBG 2003 EAP (China) Yixing Pumped Storage $145m 2004 ECA (Turkey) Turkey Renewable Energy Project $202m EAP (China) Fourth Inland Waterways $91m 2005 EAP (Laos PDR) Nam Theun 2 $270m ECA (Ukraine) Hydropower Rehabilitation $106m 2006 AFR (Regional) Felou $75m EAP (China) Fifth Inland Waterways $100m 2007 AFR (Uganda) Bujagali $360m AFR (DRC) Inga Rehabilitation $297m 2008 SAR (India) Rampur $400m AFR (Regional) Niger $186m EAP (Philippines) Magat Privatization $105m Source: World Bank: Business Warehouse 13 ment and the momentum of carbon trading Figure 9 Bank Support of Hydro Components (Figure 9). The Multilateral Investment Guaran- (Approvals 2003­2008) tee Agency (MIGA) has played an important role in major new projects, such as Nam Theun Guarantees 2 and Bujagali, with total guarantees of US$315 17% million since 2005. IBRD 37% The WBG now supports a range of hydropower investments, from small run-of-river to rehabili- tation to multipurpose projects (Figure 10). Run- of-river projects currently account for the larg- est portion of the portfolio in both value and number of projects. Storage and rehabilitation IFC combined account for about half the portfolio. 20% Two significant rehabilitation projects, totaling IDA 21% US$480 million, have been approved recently, bringing the total since 2004 to US$865 million Source: World Bank: Business Warehouse; Project Staff Appraisal over 14 projects, mainly in Africa and Eastern Reports; Project Appraisal Documents; Implementation and Central Asia. Completion Reports; World Bank Carbon Finance Unit; and IFC. The WBG's assistance extends well beyond lending--to technical support, knowledge Figure 10 Active Project Breakdown by Value sharing, policy dialogue, economic and sector work, and support during project preparation and implementation. In these roles, the WBG draws on a range of products and services. Rehabilitation 24% Many of these were developed during the downturn in hydropower lending in the 1990s, when the Bank remained actively involved in the power sector, assisted market reforms and initiated important policy and regulatory benchmarks for environmental, social and wa- ter resources management. The resulting op- Run-of-River erational directives and safeguards, coupled 48% Storage with the ongoing development of tools such 28% as Strategic Environmental Assessment and payments for environmental services, offer the Source: World Bank: Business Warehouse; Project Staff Appraisal Bank an important opportunity to add impetus Reports; Project Appraisal Documents; Implementation Completion Reports; World Bank Carbon Finance Unit; and IFC. to hydropower efforts. Strategic Framework The WBG's ultimate objective is scaling up its engagement in hydropower to help countries maximize the value of hydropower investments in economic development and poverty alleviation in an envi- ronmentally and socially sustainable manner. This will be accomplished by expanding the pipeline of high-value investments in each country or basin, and by mobilizing societal support and adequate resources, knowledge, and skills to meet clients' needs while managing the risks inherent in the sec- tor. At this stage of hydropower re-engagement, it is also necessary to reduce project development costs--but only if the principles of sustainable development remain fully embedded through sound en- vironmental management and social inclusion. The private sector plays a critical role in providing the 14 required financial management and technical skills. However, private sector participation depends on the right balance of public and private responsibilities and allocation of risks and benefits. In many cases, the public sector needs to play a leadership role in reducing risks in hydropower development, maximizing an array of potential benefits, and ensuring balanced access and use of natural resources. The WBG's approach to hydropower development is supported by other WBG strategies, including the Sustainable Infrastructure Action Plan (2008), the Clean Energy Investment Framework (2007), and the Development and Climate Change Strategic Framework, as well as strategies for energy (2006), water resources (2003), and environment (2001). The Clean Energy Investment Framework (CEIF), for exam- ple, articulates three pillars: access to energy; accelerating the transition to a low-carbon economy; and adaptation to climate variability and change. Hydropower has a role in each of these. The Sustainable Infrastructure Action Plan (SIAP) recognizes the same influences and trends shaping the WBG's role in hydropower, such as: · Global trends: climate change, volatile energy prices, globalization of production of goods and services, growing disparities between urban and rural areas, the role of private investment, and the proliferation of aid channels · The focus on core infrastructure sectors, including water and energy · The central role of cross-sectoral themes (climate change, public/private partnerships, rural- urban integration,22regional and multi-country approaches) · The sustainability framework, with a focus on integrating environmental and social values in a triple bottom line. Core elements of the SIAP echo the priorities in scaling up hydropower, including: leveraging finance; recognizing the need for more agile WBG responses to client and stakeholder demands; and address- ing the perverse impacts of poor governance on the investment climate. The Development and Climate Change Strategic Framework recognizes the role of water manage- ment in climate change response, including scale-up of hydropower infrastructure as both a mitiga- tion measure, as a low-carbon renewable energy, and the role infrastructure can play in managing hydrologic variability. Its six action areas23 will support hydropower in delivery co-benefits of adapta- tion and mitigation. World Bank Group's Value-Added The WBG's convening power is central to scaling up hydro infrastructure. Supported by the forma- tion of the Sustainable Development Network, the Bank can help countries work across sectoral lines, mainstreaming environmental management, leveraging local development, and integrating water and energy needs. The WBG's ability to convene across national borders has been demonstrated in regional coordination in both energy and water, and its ability to catalyze financial packages will be instrumental in addressing financial constraints in the sector. The WBG can bring world-class expertise to clients at the policy and project levels through access to consultants and, importantly, convening of independent panels on environmental and social safeguards. Finally, coordinated World Bank-IFC 22In hydropower, rural/urban linkages are characterized by large infrastructure projects that have local and regional impacts but benefit distant urban communities. In these cases, careful attention to benefits sharing and local community impacts are at the core of spatial integration. 23Support climate actions in country-led development processes; mobilize additional concessional and innova- tive finance; facilitate the development of market-based financing mechanisms; leverage private sector re- sources; support accelerated development and deployment of new technologies; and step up policy research, knowledge, and capacity building. 15 actions can support the many countries that are evolving from vertically integrated elec- Box 4 Hydro Value Chain tricity monopolies to contracts-based public- Operations, Compliance private initiatives. The WBG is in a strong position to provide sup- Procurement, Construction port for hydropower across the full value chain (Box 4). Direct lending to investment projects Engineering, Feasibility Studies, will remain a key WBG function, complement- Financial Architecture, Licensing ed by providing access to multiple financing sources (donors, carbon financing, the private Environmental and Social Management, sector). The WBG can also support the sector Benefit-Sharing, Revenue Management more broadly, by building capacity in areas Baseline Studies such as environmental management and so- cial analysis and by strengthening sector-level National Strategies, Sector Plans, Strategic Environmental Assessment planning. Further upstream, the WBG is in a position to help governments create the poli- cies, regulations, and institutions that will guide Laws, Regulation, Market structure responsible actions at the project level. The WBG's comprehensive, long-term involvement in country programs provides multiple entry points to engage with and/or support hydropower development. The WBG is uniquely positioned to address the complexity of hydropower projects. It can identify and take advantage of cross-sectoral linkages, for example, between transportation and health care. It can coordinate with other donors and other program participants to maintain effective and efficient project structures; and it can tailor support to meet the unique needs, opportunities, and constraints of each region or country, including: · Leveraging hydropower investments for broader regional development benefits; · Providing full-service support on the range of natural resource management issues that arise in hydropower projects (for example, water management, catchment area treatment, fisheries, and the like); · Strengthening sustainability practices through the application of safeguards and operational policies; and · Identifying and realizing opportunities for multipurpose hydropower infrastructure, consistent with development plans and priorities. Areas of Focus Complex, multipurpose projects that cross both national and sub-national borders take full advantage of the WBG's value added, drawing on convening power and cross-sectoral reach. Projects such as hydropower development and water management in the Senegal and Niger Basin, and pre-invest- ment initiatives in the Zambezi and the Eastern Nile, strive to leverage benefits beyond energy through multipurpose activities and synergies with regional development plans. The transformational impact of hydropower infrastructure in these basin-level investments will be felt over the longer term. WBG participation in the full range of project types, including microhydro, medium run-of-river, and rehabilitation investments, is equally important. Small projects benefit from the WBG's renewable en- ergy program. The WBG's focus on social and environmental safeguards and performance standards has offered important entry points for medium-scale projects (including run-of-river) in South Asia, with 16 the added benefits of access to independent experts and capacity building at the country level. The Bank's involvement in rehabilitation opportunities, which offer lower risk and deliver faster paybacks, facilitates reoperation for environmental and social objectives, access to carbon markets, and revision of hydrological assessments in the context of climate change. In most regions, privatization and market restructuring are creating opportunities for the private sec- tor. These opportunities can benefit from the WBG's mix of businesses. The IFC plans to scale up invest- ments in renewable energies in existing projects, including hydropower. Partnership with IBRD/IDA and MIGA during various stages of project preparation will facilitate investments in IDA countries and in public-private partnerships such as the Bujagali project. Focus countries include China, India, Brazil, Chile, Peru, Uganda, and Democratic Republic of the Congo. Of particular importance are opportuni- ties for pairing IFC's US$100m InfraVenture Fund for project feasibility studies with advisory services to improve the environment for and participation of the private sector. Other opportunities lie in joint IFC- World Bank work on safeguards, good practice, and coordinated country strategies. Two-Track Concept for Scaling Up The WBG will scale up investment in sustainable hydropower through two complementary tracks: · Track 1: Implement investment opportunities. The WBG will consolidate recent increases in lend- ing to high-quality projects executed in a timely manner. In addition to direct development benefits, these projects will help demonstrate the application of progressive approaches to hy- dropower and the WBG's role as a partner in developing sustainable water infrastructure proj- ects, whether small, medium or large, complex, transboundary investments. · Track 2: Strengthen sectoral foundations. The WBG can broaden its impact and help maximize the strategic value of hydropower by moving upstream to capacity building, planning, and policy development in client countries. This work is critical to mobilize adequate financing and to provide the foundations for sustainable complex multipurpose transboundary projects. It broadens the contribution hydropower infrastructure can make to managing the implications of climate change. This track takes a central place in helping governments define their roles in planning, resource management, regulation, direct investment, and public/private partner- ships. The two tracks support and reinforce each other. Strengthening the enabling environment for the private sector will enhance opportunities to leverage WBG financing, while increased capacity in en- vironmental and social management will reduce the transaction costs and time required for project preparation. Enhanced planning and strategic assessment of hydropower resources will have the dual impact of maximizing the value of storage opportunities and identifying companion investments for greater development impact through benefits sharing and multipurpose project design. At the same time, direct financing in hydropower projects helps establish relationships and create opportunities to build capacity and tailor foundations' work to corporate, state, national, or regional needs. While the major scale-ups will have elements of both Track 1 and Track 2, flexibility in designing the right blend and sequencing is important. In low-capacity countries, policy and regulatory work must precede or accompany large, complex projects--a lesson well demonstrated in the case of Nam The- un 2. In other countries, engagement may be more opportunistic, leading with direct investment and leveraging participation in strengthening sectoral foundations. In India, for example, the entry point has been financing of medium-size projects, from which other policy and water/environmental man- agement opportunities are emerging (for example, river basin assessment, catchment area treatment, and resettlement and rehabilitation policies). Each track is described on the following page. 17 Track 1: Implement Investment Lending Opportunities Promising pipeline projects of around US$2 billion over the next several years have been identified in consultation with regional operations and the IFC. This complements approvals in FY08 of over US$1 billion but does not include projects under preliminary discussion with clients. Long-term sustained lending will require a strong focus on energy and water planning at the country and regional levels. It will also require a concerted focus on early preparation of prefeasibility and feasibility studies, and an increase in resources for project preparation. Partnership and convening of financing sources, such as private financiers and emerging players from China, India and Brazil, will be needed to leverage direct WBG financing. As described in the Sustainable Infrastructure Action Plan (SIAP), significant opportunities for leveraging are available through collaborations across WBG busi- nesses, broadening activities through cross-sectoral linkages, and partnering with private and emerg- ing financiers. Regions vary considerably in projections. Although significant prospects are identified in Africa, the formal pipeline is modest. By contrast, the portfolio is South Asia is stronger in pipeline projects with less identified in the longer term. WBG involvement in Latin America is currently small but gaining momen- tum while East Asia and Pacific activity concentrates on projects under preparation or implementation (e.g., Nam Theun 2). Geographically, South Asia and Africa will be the focus areas over the next three years, with contin- ued activity East Asia. However, each region has its own unique hydropower story. A strong renewable energy program, led by India, is emerging in South Asia. Driven in part by the World Bank's engagement in the power sector, the program complements the Indian government's focus on access to energy. It addresses a significant gap in access to electricity and is realigning the balance between renewable and nonrenewable energy resources. The India scale-up includes invest- ment lending for rehabilitation, new projects, and regulatory reform. To support intensive development plans for hydropower in two northern states, the World Bank is addressing river-basin management concepts for power optimization, economies of scale in infrastructure, and broader benefits-sharing opportunities for local communities. Project development includes specific provisions to build energy companies' capacity to manage for sustainability. Hydropower developments are appearing across the region, with technical assistance and project scoping planned for Pakistan, Nepal, and Afghani- stan. The IFC is exploring opportunities in India and Pakistan. With transboundary rivers running through China, India, Pakistan, Nepal, and Bhutan, water resources management and emerging energy trade will shape the longer term hydropower infrastructure agenda in the region. In Africa, the challenges of multiple demands for water and the predominance of international rivers match the imperatives of energy access. The starting points for many projects are institution building and helping countries develop regionally coordinated river basin organizations to sustainably develop water resources. The regional context is a key driver from the energy side, with expanding power pools and system integration that qualitatively change the role of hydropower in a mixed energy system. The Africa portfolio will host numerous large, complex, multipurpose initiatives over the next decade, spotlighting the WBG's role in convening across donors, countries, and sectors. The WBG is already po- sitioned for this work, with active and comprehensive engagements in the Nile and West African ba- sins (Senegal, Niger) as well as project-specific work at the country level. The key challenges for Africa hydropower are low capacity and financial constraints--in particular IDA limits--and the climate for private sector development, and the complexities of developing transboundary water resources. Eastern Europe and Central Asia: With strong economic growth over the last few years, and a backlog of needed investments in aging energy infrastructure, a looming energy crisis in parts of Europe and Central Asia is forcing a focus on short-term options and, consequently a preference towards ther- 18 mal resources. Large untapped hydropower resources (in Russia, Central Asia, Southeast Europe, and Turkey) are attracting the interest of investors but are facing a complex environment and significant market risks in addition to concerns from civil society. Therefore, in the short term, lending will continue to focus on dam safety and rehabilitation projects, with several large (conventional and pumped stor- age) hydropower projects in the pipeline for possible development in the medium to longer term. Latin and Central America: The current portfolio in Latin America related to hydropower is dominated by carbon finance, IFC and, in the late 1990s, MIGA guarantees. Recently the World Bank has reen- gaged in technical assistance for hydropower development, and investigation of possible financing for investment. This includes an assessment of opportunities development, sector planning, feasibility studies and studies of interconnection of large hydro. Studies are ongoing in Peru, Central America and Brazil. The Latin America region will continue to be a focus region for IFC lending, particularly in Brazil, Chile and Peru. East Asia and Pacific: The East Asia hydropower program is dominated by implementation of the Nam Theun 2 project in Laos PDR and project development in Vietnam. Smaller projects are likely in the South Pacific. China, which was the dominant region for the WBG through the 1990s, will likely seek carbon financing advantages, both within and outside the Bank with less investment lending than previously. Upstream work will be important to strengthen the hydropower sector in Mongolia (energy planning) and Vietnam (evolution from centralized planning to contractual basis for generation and dispatch) and Laos PDR (capacity building). Ongoing work in the Mekong Basin is building toward in- vestments in regional water and energy security. Middle East and North Africa: Water security issues dominate in the Middle East and North Africa, where nearly 80 percent of total water resources are withdrawn and climate change is expected to reduce runoff by more than 10 percent over 80 percent of the region. Ongoing and adaptive man- agement of multipurpose water infrastructure will remain critical, and current prospects for scaling up investment lending are modest. However, the WBG's strong focus on institutional frameworks for man- aging scarcity will support effective hydropower management and development. Track 2: Strengthen Sectoral Foundations The second track of the WBG's Directions in Hydropower focuses on building the foundations of the sector for increased WBG and non-WBG investments, largely through analytical and advisory services to client countries. Track 2 plays a critical role in building capacity and developing institutions to im- prove the enabling environment for a range of players and types of projects; reducing the cost and time needed for project preparation; maximizing the strategic value of hydropower infrastructure; and securing good-quality, sustainable investments. Track 2 also addresses private sector and government roles and coordination. Support for sectoral foundations has five components: 1. Scale up financing: If scaling up is to be achieved, considerable attention needs to be paid to the foundations for financing. Innovations and new combinations of financing instruments are needed to address inherent challenges such as loan tenures and local currency financing, and to improve the environment for private sector development. Looking forward, two new areas emerge: ac- cessing and taking advantage of carbon credits and revenues; and improving financing modali- ties for blended public/private sector investments, especially for multipurpose projects. The WBG Directions in Hydropower also recommends increased resources for project preparation, to meet the demands of international good practice. 2. Promote good practice: In sustainable hydropower, value is defined by the combination of envi- ronmental, social, and economic benefits--the "triple bottom line" generated by each project. For example, long-term protection of high-value conservation areas or watershed management 19 can result in win-win-win outcomes. However, in many countries, lack of capacity and the com- plexities involved in cross-sectoral and multidisciplinary efforts pose challenges to implementation of good practices. The WBG is well positioned to assist in meeting these multifaceted challenges and mainstreaming good practice through application of operational policies, knowledge man- agement, and a range of technical assistance, with a particular focus on governance and envi- ronmental and social safeguards. 3. Strengthen planning: This component focuses on supporting governments to realize the strategic value of hydropower through adequate planning, project identification, policy, and institutional development. A long-term, cross-sectoral perspective is required to realize this value across en- ergy, water, climate change, and regional needs. The WBG will help governments clarify hydro- power's contribution to development through resource planning, identifying strategic storage sites, improving hydrological data and analysis, and mainstreaming hydropower into climate change programs. The largest component of Track 2, strengthening planning recommends a significant increase in funds and technical assistance for prefeasibility studies to develop pipelines of quality projects. 4. Leverage regional development: This component explores synergies among complementary proj- ects and development opportunities that can benefit local communities and broader national and regional development objectives (for example, social infrastructure, institutional development, and environmental entrepreneurship). Hydropower projects have the potential to transform host regions and communities by exploiting complementarities and economies of scale, and by linking direct project investments with broader development objectives. These can be realized through multipurpose projects, ancillary investments, and revenue management. Focusing on local and re- gional development is a key factor in avoiding the urban-versus-rural inequities that can result from large hydropower projects. Many challenges remain, however. There are few or no robust models for financing of broader development initiatives, for ensuring clear and appropriate roles and re- sponsibilities for private developers, or for building government capacity at the local, regional, or national level. 5. Build partnerships: The WBG is in a strong position to bring parties together to assist planning, fi- nancing, and promoting good practice. It can help promote global dialogue and continuous improvement in sustainable hydropower by participating in multi-stakeholder initiatives such as the Hydropower Sustainability Assessment Forum and by facilitating third-party partnerships. Commu- nication also plays key role; the WBG must ensure its messages are appropriately and respectfully shared and invest in working relationships with civil society and industry groups. 20 4 LOOKING AHEAD Hydropower can play a strong, multi-dimensional role in sustainable development and poverty allevia- tion. Moving forward, hydropower development must adopt a dual perspective of integrated water resources management and energy development that takes into account the broad range of social, economic and environmental issues. Scaling up also calls for mobilizing adequate financial resources, building capacity across all layers of the sector and expanding the pipeline of high-value investments in each country or basin. The private sector brings critical resources and skills but relies on effective public sector participation to ensure a stable and inviting environment for investments. Building on its strong increase in lending over the last five years, the World Bank Group will continue to help governments maximize the value of hydropower investments in an environmentally and socially sustainable manner through lending and strengthening basic foundations of the sector. 21 REFERENCES Casartelli, G. 2007. "The Role of the World Bank in Hydropower and Water Resources Optimization: The Views of the Industry". Prepared for the World Bank. 2007. Energy Information Agency. 2006. "International Energy Outlook 2006." Energy Information Administra- tion, Office of Integrated Analysis and Forecasting, U.S. Department of Energy. Washington, DC. June 2006 European Bank for Reconstruction and Development. 2003. "Renewable Energy Resource Assessment: Stage 1." Prepared by Black & Veatch. Overland Park, Kansas. April 2003. ExxonMobil. 2007. "The Outlook for Energy: A View to 2030." ExxonMobil. Irving, Texas. November 2007. Grey, D. and Sadoff, C. 2007. "Sink or Swim? Water Security for Growth and Development." Water Policy. Vol. 9 (2007). pp.545­571. IPCC, 2007: Climate Change 2007. Contributions of Working Groups I, II, and III to the Fourth Assessment,Cambridge University Press, Cambridge, UK. International Commission on Large Dams. "World Register of Dams 2006". Paris, France. 2006. International Energy Agency. 2006. "World Energy Outlook 2006." International Energy Agency (IEA), OECD. Paris, France. 2006. ------. 2007. "World Energy Outlook 2007." International Energy Agency (IEA), OECD. Paris, France. 2007. International Journal on Hydropower & Dams. 2006. "World Atlas & Industry Guide." Aqua~Media Inter- national, Sutton, Surrey, UK. 2006 Krishnaswarmy, V. and Stuggins, G. 2007. "Closing the Electricity Supply-Demand Gap." World Bank. Energy and Mining Sector Board Discussion Paper. No. 20. January 2007. Lawrence, P., Meigh, J., and Sullivan, C. 2002. "The Water Poverty Index: an International Compari- son." Keele Economics Research Papers, Keele University. March 2003. Matsukawa, T. and Habeck, O. 2007. "Review of Risk Mitigation Instruments for Infrastructure Financing and Recent Trends and Developments." Trends and Policy Options, No. 4. World Bank. Washington, DC. 2007. Ramanathan, K. and Abeygunawardena, P. "Hydropower Development in India: A Sector Assess- ment." Asian Development Bank. 2007. United Nations Environment Programme. 2007. "Dams and Development: Relevant Practices for Im- proved Decision-Making." The Secretariat of the Dams and Development Project, Division of Envi- ronmental Policy Implementation. Nairobi, Kenya. 2007. World Bank. 2007. "Clean Energy for Development Investment Framework: Progress Report on the World Bank Group Action Plan." DC2007­0018. Washington, DC. September 27, 2007. ------. 2008. "Development and Climate Change: A Strategic Framework for the World Bank Group." Washington, D.C. 2008 22 ------. 2007. "Project Concept Note: Brazil Low Carbon Growth Study." Washington, DC. 2007. ------. 2007. "Project Concept Note: China Low Carbon Growth Study." Washington, DC. 2007. ------. 2007. "Project Concept Note: India Low Carbon Growth Study." Washington, DC. 2007. ------. 2007. "Project Concept Note: Mexico Low Carbon Growth Study." Washington, DC. 2007. ------. 2007. "Project Concept Note: South Africa Low Carbon Growth Study." Washington, DC. 2007. ------. 2006. "Infrastructure: Lessons from the Last Two Decades of World Bank Engagement. Discus- sion Paper. Vol. 1. January 30, 2006. ------. 2003. "Infrastructure Action Plan." Infrastructure. 2003. World Bank. . ------. 2008. "Sustainable Infrastructure Action Plan." Infrastructure. 2008. World Bank. . ------. 2008. "Water and Climate Change: Review of Water Investments and Exposure", Technical Re- port 3. Washington, DC. 2008. ------. 2003. "Water Resources Sector Strategy : Strategic Directions for World Bank Engagement." Water. 2003. World Bank. . WWF International. 2007. "Climate Solutions: WWF's Vision for 2050." Gland, Switzerland. 2007. 23 Other Water Working Notes Water Working Notes are published by the Water Sector Board of the Sustainable Development Net- work of the World Bank Group. Working Notes are available online at www.worldbank.org/water. Working Notes are lightly edited documents intended to elicit discussion on topical issues in the water sector. They disseminate results of conceptual work by World Bank staff to peer professionals in the sec- tor at an early stage, that is, "works in progress." Comments should be e-mailed to the authors. No. 1 Models of Aggregation for Water and Sanitation Provision. ERM, in association with Stephen Meyers Associates and Hydroconseil, and William D. Kingdom. January 2005. No. 2 Assessment of Resource Flows in the Water Supply and Sanitation Sector: Ethiopia Case Study. Peter L. Watson, Joseph Gadek, Eyob Defere, and Catherine Revels. January 2005. No. 3 Pro-Poor Subsidies for Water Connections in West Africa: A Preliminary Study (full report). Donald T. Lauria, Omar S. Hopkins, and Sylvie Debomy. January 2005. No. 4 Pro-Poor Subsidies for Water Connections in West Africa: A Preliminary Study (executive summary). Sylvie Debomy, Donald T. Lauria, and Omar S. Hopkins. January 2005. No. 5 Consumer Cooperatives: An Alternative Institutional Model for Delivery of Urban Water Supply and Sanitation Services? Fernando Ruiz-Mier, and Meike van Ginneken. January 2006. No. 6 Sanitation and Hygiene at the World Bank: An Analysis of Current Activities. Pete Kolsky, Eddy Perez, Wouter Vandersypen, and Lene Odum Jensen. November 2005. No. 7 Financing Water Supply and Sanitation Investments: Estimating Revenue Requirements and Financial Sustainability. Aldo Baietti and Paolo Curiel. October 2005. No. 8 Poverty Dimensions of Water, Sanitation, and Hygiene in Southwest Sri Lanka. Subhrendu K. Pattanayak, Jui-Chen Yang, Kelly Jones, Caroline van den Berg, Herath Gunatilake, Chetan Agarwal, Herath Bandara, and Thushara Ranasinghe. February 2006. No. 9 Characteristics of Well-Performing Public Water Utilities. Aldo Baietti, William Kingdom, and Meike van Ginneken. May 2006. No. 10 Rural Water Supply, Sanitation, and Hygiene: A Review of 25 Years of World Bank Lending: 1978­2003. Summary Report. Param Iyer, Jennifer Davis, Elif Yavuz, and Barbara Evans. July 2006. No. 11 Taking Account of the Poor in Water Sector Regulation. Sophie Trémolet and Catherine Hunt. August 2006. No. 12 Engaging Local Private Operators in Water Supply and Sanitation Services: Initial Lessons from Emerging Experience in Cambodia, Colombia, Paraguay, The Philippines, and Uganda. Thelma Triche, Sixto Requena, and Mukami Kariuki. December 2006. No. 13 Principles of Town Water Supply and Sanitation. Part 1: Water Supply. Nick Pilgrim, Bob Roche, John Kalbermatten, Cathy Revels, and Mukami Kariuki. December 2007. No. 14 Principles of Town Water Supply and Sanitation. Part 2: Sanitation. Kevin Tayler. December 2007. No. 15 Ways to Improve Water Services by Making Utilities More Accountable to Their Users: A Review. Mike Muller, Robin Simpson, and Meike van Ginneken. May 2008 No. 16 Poverty Analysis in Agricultural Water Operations. Salah Darghouth, Christopher Ward, J. Price Gittinger, Julienne Roux and Animesh Srivastava. May 2008. No. 17 Key Topics in Public Water Utility Reform. Meike van Ginneken and Bill Kingdom. August 2008. No. 18 Deterring Corruption and Improving Governance in the URBAN Water Supply & Sanitation Sector. Jonathan Halpern, Charles Kenny, Eric Dickson, David Ehrhardt, and Chloe Oliver. December 2008. No. 19 Guiding Principles for Successful Reforms of Urban Water Supply and Sanitation Sectors. Alain R. Locussol, Matar Fall with the assistance of Eric Dickson. January 2009. No. 20 Using a Private Operator to Establish a Corporatized Public Water Utility ­ The Management Contract for Johannesburg Water. Philippe Marin, Jean-Pierre Mas and Ian Palmer. June 2009.