Access to power and electricity is a vital resource for businesses and for sustaining the livelihood of consumers. However, producing reliable and renewable energy and distributing it in rural areas can be challenging. Such activities require special technical support measures for organizing a highly efficient and cost-effective production process. Renewable Energy and Power Supply Challenges for Rural Regions provides innovative insights into energy production, consumption, and distribution in rural regions and examines sustainable and renewable power sources. The content within this publication explores such topics as renewable energy, electrical network, and thermal energy storage. It is designed for electricians, policymakers, state officials, professionals, researchers, and academicians.
Overview of energy requirements for rural communities; Calculating energy and food production potential and requirements; Planning of integrated energy systems for rural communities; Renewable energy resources and technologies; Applications of renewable energy technologies; System integration.
Large rural areas in some regions of the world are still grappling with the challenge of electrification. The optimal solution is to provide reliable energy without adding more fossil fuel plants by using distributed renewable generation. Microgrids are part of that solution; they are small networks of electricity users, with a local generator that is attached to a centralized larger grid, but which is also able to function independently. They need to be robust and resilient in order to provide reliable power, including in harsh climates. For remote areas microgrids have the advantage of offering an electricity supply even if there are problems with the larger power grid. This book focuses on the challenges of rural electrification, particularly in poorer regions. It covers low voltage DC distribution system for various applications including charging of electric vehicles (EV). Written by a large team of authors with a wide range of relevant experiences, the book addresses microgrid architectures, converters, energy storage, control, EV integration, business models and economic scheduling, and the role of blockchain technology. The authors have used case studies to provide illustrative examples of the technologies discussed and solutions proposed.
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.
This book examines the economic impacts of government investments in renewable energy on rural areas and how such investment can bring the greatest benefit to those areas.
In 2017, nearly 60 million households in Indonesia were connected to the national power grid. Accordingly, we believe that their ‘voice’ is important to maintain democratic and participatory values in planning electricity services. However, what is actually the voice of electricity users in Indonesia? Also, what can we learn from it when looking at the fitness of the electricity supply in Indonesia in the context of costs, reliability, and environmental aspects? This book presents the real experience of households, some of the grid users in Indonesia. Through a series of surveys in 2017, households in three cities in Western, Central, and Eastern Indonesia shared their experiences and preferences regarding their electricity supply. They offered their opinions about the stability and reliability of electricity supply, how they coped with blackouts, and what impacts power interruptions had on their daily lives. Because of the frequent power outages, the users started to think about the importance of having a back-up power generator at home. Given that Indonesia has high solar irradiance the whole year through, we also observed the users’ attitudes toward solar photovoltaic (PV) systems. The book starts with a brief introduction about Indonesia followed by the status and challenges of power supply in the country. Then, in the middle section, the users’ voices are presented. Finally, the potential of PV systems, as a promising solution to increasing electricity access and improving the reliability of electricity supply in this tropical country, is presented. We believe that this book provides useful information for the transition to the use of solar energy in energy systems in Indonesia, which is meant for academia, electric utility companies, PV system actors, policymakers, and of course, households in Indonesia.
Douglas Barnes and his team of development experts provide an essential guide that can help improve the quality of life to the estimated 1.6 billion rural people in the world who are without electricity. The difficulties in bringing electricity to rural areas are formidable: Low population densities result in high capital and operating costs. Consumers are often poor, and their electricity consumption is low. Politicians interfere with the planning and operations of programs, insisting on favored constituents. Yet, as Barnes and his contributors demonstrate, many countries have overcome these obstacles. The Challenge of Rural Electrification provides lessons from successful programs in Bangladesh, Chile, China, Costa Rica, Mexico, the Philippines, Thailand, and Tunisia, as well as Ireland and the United States. These insights are presented in a format that should be accessible to a broad range of policymakers, development professionals, and community advocates. Barnes and his contributors do not provide a single formula for bringing electricity to rural areas. They do not recommend a specific set of institutional arrangements for the participation of public sector companies, cooperatives, and private firms. They argue instead that successful programs follow a flexible, but still well-defined set of principles: a financially viable plan that clearly accounts for any subsidies; a cooperative relationship between electricity providers and local communities; and an operational separation from day-to-day government and politics.
It is estimated that more than two billion people worldwide lack access to modern energy resources. Renewable energy has the potential to bring power to these many communities and individuals who function off the grid. This book describes the latest advances in distributed and off-grid renewable energy technologies and offers strategies and guidelines for planning and implementation of sustainable, decentralized energy supply. Coverage includes wind, solar, geothermal, and biomass systems planning and integration, economic assessment models and the role of legislative structures. -- Back Cover.
It is very much true that people living in most of the rural areas depend on renewable energy resources for their daily domestic requirements. They either get an interrupted power supply from the traditional commercial electric supply or in some cases where the people living in a remote location may not get the traditional supply due to the distance. The people in the rural area already started using renewable energy resources for their daily needs. But it is seen that most of the rural area are potential to use many forms of renewable energy resources. There is a major requirement in combining more than one form of such energy to fulfill the needs. This paper explains the different methods of production of energy using the renewable resource in the rural area and a model to combine them to use the energy efficiently. This model suggests the controller to be designed which will use the energy produced from renewable energy efficiently. This controller has a responsibility to avoid the energy from the traditional method as long as there is a supply of energy from renewable resources. The controller uses the traditional energy only when there is no alternative energy supply from renewable energy.
