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As the world's fastest-growing local energy technology, distributed photovoltaics (DPV) has upended the traditional paradigm of one-way power flow from the grid to consumers. Solar electricity systems located close to grid consumers known here as DPV empower consumers to produce electricity for themselves and for the grid. Thanks mainly to falling PV costs, DPV has become a viable way to meet energy needs for a widening array of consumers. Worldwide, installed capacity of DPV exploded from just a few megawatts (MW) in 2000 to 250 gigawatts (GW) in 2019; and it is forecast to exceed 500 GW by 2025. Poorly managed, DPV scale-up can then erode utility finances and interfere with grid operation. Yet, as explained in this report, well-managed DPV can benefit not only DPV owners but also contribute to reliable grid operation and a financially sound electricity sector. DPV offers multiple types of benefits relevant for low- and middle-income countries, especially when it can reduce electricity costs and widespread dependence on diesel generators. This report is an overview of DPV in different country contexts, and it is aimed at energy ministries and other decision-makers. Chapter 1 introduces key concepts and the recent status of the DPV market. It also highlights key potential value propositions of DPV for different stakeholders, including consumers, utilities, governments, and society as a whole. Chapter 2 presents nine specific ways in which distributed photovoltaics (PV) is or could be used to solve problems faced in low and middle-income country contexts.
Energy --- Energy and Environment --- Energy Policies and Economics --- Solar Energy
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Developed in the context of the rapidly growing demand for space cooling and the critical need for access to affordable space cooling solutions, this primer aims to introduce a broad audience to the topic of space cooling and its key considerations, and to help initiate and advance sustainable space cooling into policy discussions and investment considerations in developing countries. The global energy use for space cooling is projected to grow three-fold between 2016 and 2050, with a majority of this growth occurring in developing countries. While the growing need for space cooling is in alignment with the developmental needs of countries, this growth must be addressed with carefully designed strategies and solutions to avoid severe economic, power system, and environmental impacts. Underscoring an integrative approach to space cooling, the primer provides with an overview of strategies that reduce the cooling loads of buildings by applying building efficiency measures that enhance thermal performance, serve the cooling load as efficiently as possible through appropriate choice of cooling solution and utilization of most efficient cooling equipment available, and optimize the performance of cooling through their operation. Discussing the barriers to implement sustainable space cooling, the primer also presents demonstrated space cooling intervention strategies that can help overcome these barriers, with over 100 real-world examples and implementation considerations included in the Compendium.
Energy --- Energy and Environment --- Energy Demand --- Energy Policies and Economics
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Coal plants worldwide are grappling with low-capacity utilization levels and environmental issues; and have not only become unprofitable to utilities, but also uneconomical to customers. Developed countries with significant coal capacities such as Australia, Canada, Germany, the United Kingdom (UK), and the United States (US), are taking different approaches to wean away from coal. One such approach includes retiring and repurposing coal plants for various productive end uses, including solar plants, wind plants, data centers, and energy storage. Developing countries may gain much from the experience of their developed counterparts. Against this backdrop, the authors briefly examine the power situation in three developing countries, namely, South Africa, Chile, and India, based on their economic prowess within respective regions, predominance of coal in economic activities, and vulnerability to climate change, which make an interesting case for an analysis of repurposing coal plants in developing countries. This study presents the concepts and components of a cost-benefit analysis needed for a coal plant repurposing project.
Coal and Lignite --- Energy --- Energy and Environment --- Energy Demand --- Energy Policies and Economics --- Renewable Energy
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For those who prefer to cook with gas but are not connected to a natural gas pipeline-and nearly all rural households fall under this category, liquefied petroleum gas (LPG) is the main option. For those for whom LPG is too costly and wish to cook with biomass because of its ready availability, lower cost, and familiarity, advanced combustion stoves burning pelletized biomass fuel may hold the best promise of clean energy. LPG and advanced combustion stoves have many challenges in common but also unique challenges of their own. Arguably the greatest obstacle is the high cost of their use as primary energy sources. Essentially all challenges cited in the literature, stovetops being too small or unstable for large pots and pans and for vigorous stirring, the inability to cook large meals or several dishes in parallel, difficulties of reloading pellets in the middle of cooking, fears about explosions and burns, and the inconvenience of waiting for refill LPG delivery after finding the cylinder empty, to name a few, can be addressed, but at a significant cost. In high-income economies, millions of households have been using gas to meet all their cooking and heating needs (supplemented by electricity for certain appliances such as rice cookers and microwave ovens) but at a cost that would be unaffordable to many, if not most, households in developing countries. Commercially viable solutions to these problems for advanced combustion stoves, such as auto-ignition and automated pellet loading mechanisms, are not yet available. The emission performance of advanced combustion biomass stoves has been compromised by use of polluting start-up materials and practices, heterogeneity of biomass used (size, moisture content, type), and excessive emissions during fuel reloading and the burn-out phase. Battery and other equipment failures increase emissions further or can even render the stove inoperative. Deterioration in emission levels with the stove age has also found to be worryingly high in one study, pointing to the need to improve the durability of stove performance in the field.
Energy --- Energy and Environment --- Energy Consumption --- Energy Policies and Economics --- Fuels
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This report presents an overview of current and projected market trends for off-grid lighting. It was commissioned and coordinated by Lighting Africa,a joint initiative from IFC and the World Bank.The report provides a snapshot of the off-grid lighting market and provides industry level data and analysis on key trends. It relies on the inputs ofa broad range of industry experts, manufacturers, distributors, scientists, marker researchers, and NGO leaders worldwide who contributed theirviews, time, and advice to the preparation of this document. This included interviews with over 70 solar market players in 10 African markets, anda range of lighting product manufacturers worldwide. The report will be updated every two years. A key component of the Lighting Africa landscape is the market for solar portable lights, which covers a range of lighting needs from individual tasks to general household lighting. This report presents a snapshot of this market and provides industry-level data and analysis on key trends. Excerpts from this report were used to establish a common foundation for the discussions at the Lighting Africa conference on May 18-20, 2010, and the full document is designed to be a reference point for futurefact-based analysis of the market opportunities for off-grid lighting. It should be noted that Lighting Africa is technology-neutral, but has assembled this report with a focus on solar-based lighting products, as this is a dominant and fast-growing sector of the off-grid space deserving lighting industry, donor, and private sector investor attention. The report relies on the input of a broad range of industry experts, manufacturers, distributors, and NGOs, including interviews with over 70 solar market players in 10 African markets and a dozen lighting product manufacturers worldwide. It will be updated every two years. We welcome your feedback and support in thiseffort and encourage you to reach out to the Lighting Africa team with your questions and feedback.
Electricity --- Energy --- Energy and Environment --- Energy Demand --- Energy Production and Transportation --- Renewable Energy --- Solar Energy
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For many years, offshore wind was the expensive cousin of onshore wind with generation costs in the range of USD 150 to USD 200 per megawatt hour (MWh). This changed dramatically between 2016 and 2017 when a series of competitive tenders in Europe witnessed strike prices fall below USD 100/MWh, culminating in projects that bid into merchant markets with no subsidy at all. Prices have continued to drop thanks to technological improvements, economies of scale, maturation of supply chains, better procurement strategies, and the efforts of large and sophisticated project developers, including several from the utility and oil and gas sectors. However, to date the offshore wind industry has remained largely confined to Europe and China. As prices continue to drop, offshore wind is increasingly gaining traction in emerging markets. Projections suggest that offshore wind will add between 7 to 11 gigawatts (GW) per year from 2019 to 2024, reaching between 15 to 21 GW/year from 2025 to 2030. While much of the growth is expected in Europe, China, and new Organization for Economic Co-operation and Development (OECD) markets including Japan, South Korea, and the United States, there is ample potential for developing countries to ride on this momentum and ramp up their local offshore markets. This report presents eight case studies on the technical potential for offshore wind in Brazil, India, Morocco, the Philippines, South Africa, Sri Lanka, Turkey, and Vietnam (here, technical potential is calculated on the basis of wind speed and water depth). Considering offshore areas within 200 kilometers (km) of the coast, 3 these eight countries have a total technical potential of approximately 3.1 terawatts, including 1,016 GW of fixed capacity and 2,066 GW of floating capacity.
Energy --- Energy and Environment --- Energy Policies and Economics --- Renewable Energy --- Windpower
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The primary objective of this project was to identify options for addressing barriers to financing, for scaling up EE implementation in public buildings in the Philippines. Section two of this report provides a summary of the available data on public buildings, including the energy consumption characteristics of government buildings and facilities, estimates of the potential for energy savings, and investments needed. Section three discusses some of the barriers to financing EE that has been seen in other countries, and summarizes such barriers in the public sector in the Philippines, including legal and regulatory barriers; lack of access to commercial financing; institutional barriers; and limited implementation capacity. Section four provides information about international experience in the financing of public sector EE projects. It includes a review of six different financing mechanisms: budget financing; EE revolving funds; dedicated EE credit lines; risk-sharing programs; public or super ESCOs; and commercial financing using ESCOs and performance contracting. It also presents a comparative assessment of the key characteristics of each of these financing options. Section five identifies three options that are considered appropriate for implementation in the Philippines, budget financing, an EE revolving fund, and a public or super ESCO, and provides detailed information on each. It also presents information on the potential role of international financial institutions in providing complementary financial and technical assistance. Section six summarizes the advantages and limitations of the three proposed financing options; presents the World Bank's recommendations; and provides guidance on moving forward with the development of a national program.
Energy --- Energy and Environment --- Energy Consumption --- Energy Demand --- Energy Finance --- Energy Policies and Economics
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Sao Tome and Principe (STP) is one of the smallest economies in Africa, a lower-middle-income, developing small-island state with a fragile economy, and it is therefore highly vulnerable to exogenous shocks. The World Bank, with support from the energy sector management assistance program (ESMAP), has launched the global survey on energy access, using the multi-tier framework (MTF) approach. The survey's objective is to provide more nuanced data on energy access, including access to electricity and cooking solutions. The MTF approach goes beyond the traditional binary measurement of energy access to capture the multidimensional nature of energy access and the vast range of technologies and sources that can provide energy access, while accounting for the wide differences in user experience. The importance and wide-ranging impact of energy access is recognized by the United Nations under sustainable development goal 7.1, which seeks universal access to affordable, reliable, and modern energy services. The government of STP has been committed to achieving sustainable development goal 7 to benefit its people, and has thus collaborated with the World Bank to realize the MTF survey to obtain guidance on setting targets, policies, and investment strategies for enhancing energy access.
Electric Power --- Energy --- Energy and Environment --- Energy Demand --- Energy Policies and Economics --- Renewable Energy --- Solar Energy
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The Global Gas Flaring Reduction Partnership (GGFR) provides its members with overviews of the potential solutions to recover and monetize the flared and/or associated gas. The purpose of this report is to compare the Liquefied Natural Gas (LNG) and Compressed Natural Gas (CNG) chain concepts that could be used to monetise small volumes (1-15MMscf/d) of associated gas and avoid or reduce the current gas flaring. Both LNG and CNG concepts have been developed for over 50 years in similar though not exactly the same ways, and have gained some maturity as a result of the gas market expansion. The CNG and LNG reports analysed the available technologies and the development of the respective chains in specific countries for a better understanding of the mechanism of their evolution and for possible application in other emerging countries. This report will compare both CNG and LNG chain concepts for small volumes monetisation and will identify the drivers that could increase their implementation to reduce gas flaring and its consequential emissions.
Compressed Natural Gas --- Energy --- Energy and Environment --- Energy Markets --- Finance --- Natural Gas --- Oil & Gas
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Paul Wolfowitz, President of the World Bank, remarked that a key goal of the World Bank is supporting developing countries in meeting their energy demands, and helping poor people escape from poverty, and doing so with a smaller environmental footprint. It is important to build a strong partnership between rich countries and developing countries. He talked about Brazil producing ethanol on an enormous scale and with exceptional efficiency where ethanol prices have been steadily coming down in Brazilian industry, when global energy prices have been coming up. He noted the need to remove unnecessary trade obstacles that make bio fuels less competitive. He concluded by saying that the goal of World Bank's new Investment Framework for Clean Energy and Development is to provide advice, technical assistance, and investment programs to help the partner countries meet the energy challenges while protecting the natural environment.
Alternative Energy --- Energy --- Energy and Environment --- Energy Policies & Economics --- Ethanol --- Renewable Energy --- Trade Barriers
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