Solar PV is now the third most important renewable energy source, after hydro and wind power, in terms of global installed capacity. Bringing together the expertise of international PV specialists Photovoltaic Solar Energy: From Fundamentals to Applications provides a comprehensive and up-to-date account of existing PV technologies in conjunction with an assessment of technological developments. Key features: Written by leading specialists active in concurrent developments in material sciences, solar cell research and application-driven R&D. Provides a basic knowledge base in light, photons and solar irradiance and basic functional principles of PV. Covers characterization techniques, economics and applications of PV such as silicon, thin-film and hybrid solar cells. Presents a compendium of PV technologies including: crystalline silicon technologies; chalcogenide thin film solar cells; thin-film silicon based PV technologies; organic PV and III-Vs; PV concentrator technologies; space technologies and economics, life-cycle and user aspects of PV technologies. Each chapter presents basic principles and formulas as well as major technological developments in a contemporary context with a look at future developments in this rapidly changing field of science and engineering. Ideal for industrial engineers and scientists beginning careers in PV as well as graduate students undertaking PV research and high-level undergraduate students.
A fully comprehensive introduction to smart grid standardsand their applications for developers, consumers and serviceproviders The critical role of standards for smart grid has already beenrealized by world-wide governments and industrial organizations.There are hundreds of standards for Smart Grid which have beendeveloped in parallel by different organizations. It istherefore necessary to arrange those standards in such a way thatit is easier for readers to easily understand and select aparticular standard according to their requirements without goinginto the depth of each standard, which often spans from hundreds tothousands of pages. The book will allow people in the smart grid areas and in therelated industries to easily understand the fundamental standardsof smart grid, and quickly find the building-block standards theyneed from hundreds of standards for implementing a smart gridsystem. The authors highlight the most advanced works and effortsnow under way to realize an integrated and interoperable smartgrid, such as the “NIST Framework and Roadmap for Smart GridInteroperability Standards Release 2.0”, the” IEC SmartGrid Standardization Roadmap”, the ISO/IEC’s“Smart Grid Standards for Residential Customers”, theZigBee/HomePlug’s “Smart Energy Profile Specification2.0”, IEEE’s P2030 “Draft Guide for Smart GridInteroperability of Energy Technology and Information TechnologyOperation with the Electric Power System (EPS), and End-UseApplications and Loads”, and the latest joint researchproject results between the world’s two largest economies, USand China. The book enables readers to fully understand the latestachievements and ongoing technical works of smart grid standards,and assist industry utilities, vendors, academia, regulators, andother smart grid stakeholders in future decision making. The book begins with an overview of the smart grid, andintroduces the opportunities in both developed and developingcountries. It then examines the standards for power griddomain of the smart grid, including standards for blackoutprevention and energy management, smart transmission, advanceddistribution management and automation, smart substationautomation, and condition monitoring. Communication and securitystandards as a whole are the backbone of smart grid and theirstandards, including those for wired and wireless communications,are then assessed. Finally the authors consider the standards andon-going work and efforts for interoperability and integrationbetween different standards and networks, including the latestjoint research effort between the world’s two largesteconomies, US and China. A fully comprehensive introduction to smart grid standards andtheir applications for developers, consumers and serviceproviders Covers all up-to-date standards of smart grid, including thekey standards from NIST, IEC, ISO ZigBee, IEEE, HomePlug, SAE, andother international and regional standardization organizations. TheAppendix summarizes all of the standards mentioned in the book Presents standards for renewable energy and smart generation,covering wind energy, solar voltaic, fuel cells, pumped storage,distributed generation, and nuclear generation standards. Standardsfor other alternative sources of energy such as geothermal energy,and bioenergy are briefly introduced Introduces the standards for smart storage and plug-in electricvehicles, including standards for distributed energy resources(DER), electric storage, and E-mobility/plug-in vehicles The book is written in an accessible style, ideal as anintroduction to the topic, yet contains sufficient detail andresearch to appeal to the more advanced and specialist reader.
Photovoltaics for Commercial and Utilities Power Generation is an in-depth review of the solar industry development, and present day state-of-the-art. It emphasizes current and future applications of photovoltaic equipment in the commercial and utility energy sectors, highlighting its use in large scale power generating plants operating in the U.S. deserts. The book reviews all key aspects of the photovoltaic technologies from a theoretical point of view, looking closely at their design parameters, materials, manufacturing, quality and performance. It also covers the practical applications, focusing on large scale photovoltaics as a major alternative energy source. The author examines the advantages and disadvantages of each of today’s solar technologies and projects them into the future in search of optimized niche markets and maximum utilization. Key technical issues related to: manufacturing and test procedures, product quality and safety, field performance, environmental impact, and other issues are thoroughly analyzed. Lack of standardized manufacturing processes and operating procedures, fluctuating political and regulatory policies, and the different financing, legal and marketing aspects of the solar industry are amidst the topics discussed in detail as well. Photovoltaics for Commercial and Utilities Power Generation provides a 360 degree view of today’s solar energy products and the related manufacturing and operating procedures. It exposes the issues plaguing the solar industry, with the ultimate goal of finding the best solutions as needed to bring photovoltaic technologies to acceptable level of efficient, reliable and cost-effective operation in large scale power generation plants. Large scale PV power generation is one of the keys to meeting the energy and environmental demands of the 21st century. This book identifies the major issues and suggests solutions to the obstacles hindering the large scale deployment of photovoltaics in the U.S. and abroad.
The meteoric rise of the photovoltaic (PV) industry is an incredible story. In 2013, Google’s investments in PV systems totaled about half a billion dollars and Warren Buffet, one of the famous investors, invested $2.5 billion in the world’s largest PV system in California. These gigantic investments by major financial players were made only 40 years after the first two terrestrial PV companies, Solarex and Solar Power Corporation, were formed in the USA. Back in 1973, the two companies employed 20 people and produced only 500 watts of PV power. Now, just 40 years later, over a million people work in the PV industry. The worldwide capacity of operating PV electric generators equals the capacity of about 25 nuclear power plants. The PV industry is growing at an annual rate of 30 percent, equivalent to about five new nuclear power plants per year. Today, solar electricity is a significant supplier of electricity needs, to the extent that PV is forcing the restructuring of 100-year-old electric power utilities. This book describes how this happened and what lies ahead for PV power generation.
Fuelless energy sources, Rural electric power networks, Electric power distribution, Electric power stations, Energy supply systems (buildings), Rural areas, Electrical equipment, Photovoltaic cells, Solar power, Solar energy electric power stations, Electrical installations, Electric cells, Selection, Performance testing
This open access book presents the proceedings of the 2nd Africa-EU Renewable Energy Research and Innovation Symposium (RERIS 18), held in Maseru, Lesotho in January 2018. The symposium aimed to foster research cooperation on renewable energy between Africa and Europe – in academia, as well as the private and public sectors. Addressing thematic areas such as • Grid-connected renewable energy; • Decentralised renewable and household energy solutions; • Energy socioeconomics; and • Promotion of energy research, innovation, education and entrepreneurship, the book brings together contributions from academics and practitioners from the EU and Africa to enable mutual learning and knowledge transfer – a key factor in boosting sustainable development in the African renewable energy market. It also plays a significant role in promoting African renewable energy research, which helps to secure energy supply in both rural and urban areas and to increase generation capacities and energy system resilience. This book is an invaluable resource for academics and professionals across the renewable energy spectrum.
This Intergovernmental Panel on Climate Change Special Report (IPCC-SRREN) assesses the potential role of renewable energy in the mitigation of climate change. It covers the six most important renewable energy sources - bioenergy, solar, geothermal, hydropower, ocean and wind energy - as well as their integration into present and future energy systems. It considers the environmental and social consequences associated with the deployment of these technologies, and presents strategies to overcome technical as well as non-technical obstacles to their application and diffusion. SRREN brings a broad spectrum of technology-specific experts together with scientists studying energy systems as a whole. Prepared following strict IPCC procedures, it presents an impartial assessment of the current state of knowledge: it is policy relevant but not policy prescriptive. SRREN is an invaluable assessment of the potential role of renewable energy for the mitigation of climate change for policymakers, the private sector, and academic researchers.
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.
