Despite significant economic growth in Asia in recent decades, millions of people in rural Asia still lack access to electricity. In response, the Asian Development Bank is working to foster universal access to energy by developing small hybrid renewable energy systems in rural Asian areas. This publication highlights the experiences of ADB's pilot projects to achieve access to electricity and energy efficiency in five developing countries in Asia. It provides technical guidance and recommendations for the effective deployment of similar systems in minigrids in remote rural locations and small isolated islands.
The Asian Development Bank has implemented a regional technical assistance to develop small hybrid renewable energy systems that will provide reliable, adequate, and affordable energy for inclusive growth in Asian rural areas, and enable access to electricity and energy efficiency in remote rural locations and small isolated islands. This guide was prepared as part of knowledge development activities of the technical assistance, and is intended to support planning hybrid renewable energy systems based on experiences of pilot projects in South Asian developing member countries. It will help find the most cost-effective configuration for a hybrid renewable energy stand-alone system through simulation of operation for each possible configuration of the system.
Introduction to AI techniques for Renewable Energy System Artificial Intelligence (AI) techniques play an essential role in modeling, analysis, and prediction of the performance and control of renewable energy. The algorithms used to model, control, or predict performances of the energy systems are complicated, involving differential equations, enormous computing power, and time requirements. Instead of complex rules and mathematical routines, AI techniques can learn critical information patterns within a multidimensional information domain. Design, control, and operation of renewable energy systems require a long-term series of meteorological data such as solar radiation, temperature, or wind data. Such long-term measurements are often non-existent for most of the interest locations or, wherever they are available, they suffer from several shortcomings, like inferior quality of data, and in-sufficient long series. The book focuses on AI techniques to overcome these problems. It summarizes commonly used AI methodologies in renewal energy, with a particular emphasis on neural networks, fuzzy logic, and genetic algorithms. It outlines selected AI applications for renewable energy. In particular, it discusses methods using the AI approach for prediction and modeling of solar radiation, seizing, performances, and controls of the solar photovoltaic (PV) systems. Features Focuses on a significant area of concern to develop a foundation for the implementation of renewable energy system with intelligent techniques Showcases how researchers working on renewable energy systems can correlate their work with intelligent and machine learning approaches Highlights international standards for intelligent renewable energy systems design, reliability, and maintenance Provides insights on solar cell, biofuels, wind, and other renewable energy systems design and characterization, including the equipment for smart energy systems This book, which includes real-life examples, is aimed at undergraduate and graduate students and academicians studying AI techniques used in renewal energy systems.
Hybrid energy systems integrate multiple sources of power generation, storage, and transport mechanisms and can facilitate increased usage of cleaner, renewable, and more efficient energy sources. Hybrid Power: Generation, Storage, and Grids discusses hybrid energy systems from fundamentals through applications and discusses generation, storage, and grids. Highlights fundamentals and applications of hybrid energy storage Discusses use in hybrid and electric vehicles and home energy needs Discusses issues related to hybrid renewable energy systems connected to the utility grid Describes the usefulness of hybrid microgrids and various forms of off-grid energy such as mini-grids, nanogrids, and stand-alone systems Covers the use of hybrid renewable energy systems for rural electrification around the world Discusses various forms and applications of hybrid energy systems, hybrid energy storage, hybrid microgrids, and hybrid off-grid energy systems Details simulation and optimization of hybrid renewable energy systems This book is aimed at advanced students and researchers in academia, government, and industry, seeking a comprehensive overview of the basics, technologies, and applications of hybrid energy systems.
This book documents ADB’s knowledge management journey since 1966 and looks at how the bank has emerged as an increasingly valuable knowledge advisor to its developing member countries. It tracks the evolution of ADB as a platform for sharing ideas, knowledge, and experience on key development challenges in Asia and the Pacific and beyond. To showcase some of ADB’s knowledge management successes, the book presents 42 knowledge solutions across 10 sectors.
In this industrial and technological age, energy plays a principal role in sustainable development. This is connected to issues regarding availability, production processes, utilization, and environmental impact. Due to the increased rate of population growth, the energy demand in the entire world is getting to the level that it may not be sustained in the nearest future if drastic action is not taken to address the situation, especially from research and development perspectives. "None of the millennium development goals (MDGs) can be completed without considerable improvements in the quality and quantity of energy services in developing countries," according to the United Nations Development Programme (UNDP). Based on this fact, UNDP is making efforts, especially in developing countries to ensure that people have access to sustainable sources of clean, reliable, and affordable energy since every aspect of human development is highly impacted by this vital resource.
Despite significant economic growth in Asia in recent decades, millions of people in rural Asia still lack access to electricity. A project has been implemented to develop small hybrid renewable energy systems in these areas. This publication highlights the experiences of these pilot projects in five developing member countries. It provides technical guidance and recommendations for the deployment of similar systems in minigrids in remote rural locations and small isolated islands to achieve access to electricity and energy efficiency.
In recognition of the fact that billions of people in the developing world do not have access to clean energies, the United Nations launched the Sustainable Energy for All Initiative to achieve universal energy access by 2030. Although electricity grid extension remains the most prevalent way of providing access, it is now recognized that the central grid is unlikely to reach many remote areas in the near future. At the same time, individual solutions like solar home systems tend to provide very limited services to consumers. Mini-grids offer an alternative by combining the benefits of a grid-based solution with the potential for harnessing renewable energies at the local level. The purpose of this book is to provide in-depth coverage of the use of mini-grids for rural electrification in developing countries, taking into account the technical, economic, environmental and governance dimensions and presenting case studies from South Asia. This book reports on research carried out by a consortium of British and Indian researchers on off-grid electrification in South Asia. It provides state-of-the art technical knowledge on mini-grids and micro-grids including renewable energy integration (or green mini-grids), smart systems for integration with the central grid, and standardization of systems. It also presents essential analytical frameworks and approaches that can be used to analyze the mini-grids comprehensively including their techno-economic aspects, financial viability and regulatory issues. The case studies drawn from South Asia demonstrate the application of the framework and showcase various successful efforts to promote mini-grids in the region. It also reports on the design and implementation of a demonstration project carried out by the team in a cluster of villages in Odisha (India). The book’s multi-disciplinary approach facilitates understanding of the relevant practical dimensions of mini-grid systems, such as demand creation (through interventions in livelihood generation and value chain development), financing, regulation, and smart system design. Its state-of-the art knowledge, integrated methodological framework, simulation exercises and real-life case analysis will allow the reader to analyze and appreciate the mini-grid-related activities in their entirety. The book will be of interest to researchers, graduate students, practitioners and policy makers working in the area of rural electrification in developing countries.
This guidebook documents the experiences and lessons learned from developing 12 pilot mini-grid systems for off-grid energy access in Myanmar. Unelectrified rural communities typically located 10 kilometers from the national grid and without prospects of being connected to the grid in the next 5 to 10 years have been chosen for the project. This guidebook shares training materials and knowledge on the major aspects of minigrid development for rural electrification. Further, it highlights the importance of community participation and discusses the main renewable energy technologies that are suitable for mini-grid development in Myanmar including solar, hydro, and biomass. This guidebook is intended to serve government officials, renewable energy developers, and potential investors in the development of mini-grid projects in Myanmar.
Microgrids are poised to play a big role in the electricity ecosystem of the future—with decarbonization, digitalization, decentralization, and non-wires solutions being key attributes. This handbook serves as a guide to evaluate the feasibility of microgrid systems in enhancing power supply quality and connectivity. It includes information about on-grid microgrids for urban and industrial applications, prevailing business models, and emerging trends that could shape the future of this sector.
