Description
Book SynopsisFor the Movers, Shakers, and Policy Makers in Energy Engineering and Related Industries
The latest version of a bestselling reference, Energy Efficiency and Renewable Energy Handbook, Second Edition covers the foremost trends and technologies in energy engineering today. This new edition contains the latest material on energy planning and policy, with a focus on renewable and sustainable energy sources. It also examines nuclear energy and its place in future energy systems, includes a chapter on natural gas, and provides extensive coverage of energy storage for numerous forms of energy generation. The text also provides energy supply, demand, and pricing factor projections for the future.
Explore the Future of Global Energy
The authors address problems that industry now faces, including the limited availability of conventional energy resources such as oil, natural gas, and coal, and considers renew
Trade Review
"Excellent text. Covers the ground very well. An excellent companion when you are on a learning journey in Energy. A good handbook to hold hands with!"
—Prof Ajith P. de Alwis, University of Moratuwa, Sri Lanka, Coordinating Secretariat for Science Technology and Innovation (COSTI) Sri Lanka
"The book provides a very comprehensive and clear description of present, immediate future and future sources, technologies and systems for a sustainable energy use in all countries of the world. The book also deals with the aspects of Energy Infrastructure and Storage necessary for Distributed Energy Systems with smart grid integration."
—Professor N.K.Bansal, CEPT University Ahmedabad
"Overall, this is an interesting and comprehensive book that summarises well various information. It is a great reference point and can be used by both practitioners involved in RET and EE and students learning about sustainable built environment. It deals with RET and EE from technical, financial and governance points of view based on the examples from all over the world."
—Ksenia Chmutina, Loughborough University
"This is the most comprehensive and complete treatment I’ve seen of the issue of energy and our society. The international coverage adds a great deal to the discussion which is generally western-focused. The coverage of technologies is extremely balanced, providing a valid reference frame on which engineers, individuals and policy makers can base solid decisions."
—John Gardner, Professor, Boise State University
"A comprehensive handbook which covers the most cut edge improvement technologies of energy efficiency for energy generation and transportation facilities using either conventional petroleum-based energy or renewable energy. … The handbook could be beneficial to both experienced researchers / engineers as a guide or reference book and novices / university students as a textbook in energy related fields."
—Prof. Cherng-Yuan Lin, National Taiwan Ocean University
"Overall, the book covers a wide range of topics on energy efficiency and renewable energy. This will serve as a good Reference for practicing engineers, policy makers, and the students working in the area of Energy."
—Prof. Kaushik Rajashekara, University of Texas at Dallas
Table of ContentsGLOBAL ENERGY SYSTEMS, POLICY, AND ECONOMICS. Global Energy Systems. Sound Finance Policies for Energy Efficiency and Renewable Energy. State and Federal Policies for Renewable Energy. Strategies and Instruments for Renewable Energy and Energy Efficiency Internationally, in Europe, and in Germany. Energy Conservation and Renewable Energy Policies in China. Renewable Energy and Energy Efficiency in India. Renewable Energy Policies in Brazil: Bioenergy, Photovoltaic Generation, and Transportation. Energy in Israel: A Case for Renewables. Renewable Energy in Australia. Japan’s Post-Fukushima Energy Policy. Policies for Distributed Energy Generation. Economics Methods. Environmental Impacts and Costs of Energy. ENERGY GENERATION THROUGH 2025. Distributed Generation Technologies through 2025. Demand-Side Management. Fossil Fuels. Nuclear Power Technologies through Year 2035. Outlook for U.S. Energy Consumption and Prices, 2011-2040. ENERGY INFRASTRUCTURE AND STORAGE. Transportation. Infrastructure Risk Analysis and Security. Electricity Infrastructure Resilience and Security. Electrical Energy Management in Buildings. Heating, Ventilating, and Air Conditioning Control Systems. Stirling Engines. Energy-Efficient Lighting Technologies and Their Applications in the Residential and Commercial Sectors. Energy-Efficient Technologies: Major Appliances and Space Conditioning Equipment. Heat Pumps. Electric Motor Systems Efficiency. Industrial Energy Efficiency and Energy Management. Process Energy Efficiency: Pinch Technology. Analysis Methods for Building Energy Auditing. Cogeneration. Energy Storage Technologies. Advanced Concepts in Transmission and Distribution. Smart Grid Technology. RENEWABLE TECHNOLOGIES. Solar Energy Resources. Wind Energy Resource. Municipal Solid Waste. Biomass Properties and Resources. Active Solar Heating Systems. Passive Solar Heating, Cooling, and Daylighting. Concentrating Solar Thermal Power. Wind Energy Conversion. Photovoltaics. Thin-Film PV Technology. Concentrating PV Technologies. Waste-to-Energy Combustion. Energy Recovery by Anaerobic Digestion Process. BIOMASS ENERGY SYSTEMS. Biomass Conversion to Heat and Power. Biomass Conversion to Fuels. Geothermal Power Generation. Hydrogen Energy Technologies. Fuel Cells.
