A Unique Systems Approach to Energy Engineering, Covering Carbon-Based, Nuclear, and Renewable Sources! An essential reference for all engineers and students working with energy systems, Energy Systems Engineering presents a systems approach to future energy needs, covering carbon-based, nuclear, and renewable energy sources. This unique guide explores the latest technology within each energy systems area, the benefits and liabilities of each, the challenges posed by changing energy supplies, the negative impacts from energy consumption, especially CO2 emissions, and the ways in which a portfolio of new technologies can address these problems. Filled with over 200 detailed illustrations and tables, the book examines short-, medium-, and long-term energy options for the remainder of the twenty-first century. For each energy system, the authors provide equations and problems to help practitioners quantify the performance of the technology and better understand its potential. Energy Systems Engineering features: A valuable systems approach to energy engineering Coverage of all major energy topics_from climate change to wind power Both U.S. and global energy perspectives, with international comparisons Emphasis on CO2 issues and abatement, including carbon sequestration A wealth of equations and problems for each area of energy technology Numerous tables and graphs in PowerPoint format for easy presentation An extensive online ancillary package for instructors provides an instructor's manual, solution files, course syllabus, Matlab scripts, and teaching PowerPoint files. Inside This Cutting-Edge Guide to the Technology of Energy Systems: Systems Engineering and Economic Analysis Tools • Climate Change • Fossil Fuels, Relative CO2 Emissions, and Modeling of Consumption and Remaining Reserves • Fossil Fuel Combustion Technologies • Carbon Sequestration • Nuclear Energy • The Solar Energy Resource • Solar Technology • Wind Energy • Energy Technologies for Transportation • Systems Issues for Transportation Energy • Other Emerging Renewable Energy Technologies
A definitive guide to energy systems engineering—thoroughly updated for the latest technologies This fully revised book features comprehensive coverage of all types of energy systems, from fossil fuels and nuclear energy to solar, wind, biofuels, and energy systems for transportation. Throughout, new and expanded examples and end-of-chapter problems help to provide a practical understanding of each topic. Written by a team of energy experts, Energy Systems Engineering Evaluation and Implementation, Third Edition, clearly explains how each technology works and discusses benefits and liabilities. You will get up-to-date information on global emission trends, the volatile price and supply of natural gas and oil, and the accelerated growth of alternative energy sources. Detailed methods to assess environmental impact, project scope, cost, energy consumption, and efficiency are provided. Offers a technology-neutral, portfolio approach to energy system options and policy tools Includes new and expanded discussions so small scale nuclear fusion, wind turbine designs for lower average wind speed, and electric vehicles Explains how to project future output from nonconventional oil and gas Covers waste-to-energy conversion and waste water energy recovery Features high-quality illustrations and tables
Fully updated to cover the latest energy systems and technologies, this new edition offers a balanced analytical approach to assessing options and making decisions about energy systems, while emphasizing a portfolio approach in which a range of energy options are employed rather than one technology"--Provided by publisher.
Engineer and implement sustainable transportation solutions Featuring in-depth coverage of passenger and freight transportation, this comprehensive resource discusses contemporary transportation systems and options for improving their sustainability. The book addresses vehicle and infrastructure design, economics, environmental concerns, energy security, and alternative energy sources and platforms. Worked-out examples, case studies, illustrations, equations, and end-of-chapter problems are also included in this practical guide. Sustainable Transportation Systems Engineering covers: Background on energy security and climate change Systems analysis tools and techniques Individual choices and transportation demand Transportation systems and vehicle design Physical design of transportation infrastructure Congestion mitigation in urban passenger transportation Role of intelligent transportation systems Public transportation and multimodal solutions Personal mobility and accessibility Intercity passenger transportation Freight transportation function and current trends Freight modal and supply chain management approaches Spatial and geographic aspects of freight transportation Alternative fuels and platforms Electricity and hydrogen as alternative fuels Bioenergy resources and systems Transportation security and planning for extreme weather events PRAISE FOR SUSTAINABLE TRANSPORTATION SYSTEMS ENGINEERING: "This book addresses one of the great challenges of the 21st century--how to transform our resource-intensive passenger and freight transportation system into a set of low-carbon, economically efficient, and socially equitable set of services." -- Dan Sperling, Professor and Director, Institute of Transportation Studies, University of California, Davis, author of Two Billion Cars: Driving toward Sustainability "...provides a rich tool kit for students of sustainable transportation, embracing a systems approach. The authors aptly blend engineering, economics, and environmental impact analysis approaches." -- Susan Shaheen, Professor, Department of Civil and Environmental Engineering, and Co-Director, Transportation Sustainability Research Center, University of California, Berkeley
This book is a vital resource for all those who want to play their part in confronting what has been called “the greatest challenge of our time.” This layperson’s guide will help you understand the technologies and systems needed to achieve true sustainability. It explains how we can reduce greenhouse emissions, improve energy efficiency across the economy, develop a diverse portfolio of carbon-neutral energy sources, and harvest energy from nature (solar, wind, hydro, and other sources) as well as from the waste stream. It also examines innovative new solutions for moving and storing energy in buildings, industry, and transportation. With over 140 helpful figures and tables, this book provides the “energy literacy” needed to participate in this essential transition to sustainability, both as energy consumers and as citizen-participants in the decisions made by society.
Market: energy professionals including analysts, system engineers, mechanical engineers, and electrical engineers Problems and worked-out equations use SI units
The defining guide to energy systems engineering--updated for the latest technologies "Broad in scope, with focused instructional detail, this text offers a uniquely excellent, student-accessible educational resource for integrating thermodynamic, alternative, and renewable energy conversion processes." -- Professor Randy L. Vander Wal, Department of Materials Science and Engineering, Penn State University "A carefully written book, providing good breadth as well as depth on major conventional and sustainable energy systems." -- Professor David Dillard, Department of Engineering Science & Mechanics, Virginia Tech Fully revised throughout, Energy Systems Engineering, Second Edition discusses fossil, nuclear, and renewable energy sources, emphasizing a technology-neutral, portfolio approach to energy systems options. The book covers major energy technologies, describing how they work, how they are quantitatively evaluated, their cost, and their benefit or impact on the natural environment. Evaluating project scope, cost, energy consumption, and technical efficiency is clearly addressed. Example problems help you to quantify the performance of each technology and better assess its potential. Hundreds of illustrations and end-of-chapter exercises aid in your understanding of the concepts presented in this practical guide. Coverage includes: Systems and economic tools for energy systems Climate change and climate modeling Fossil fuel resources Stationary combustion systems Carbon sequestration Nuclear energy systems Solar resource evaluation Solar photovoltaic technologies Active and passive solar thermal systems Wind energy systems New chapter on energy from biological sources Transportation energy technologies Systems perspective on transportation engineering
A definitive guide to energy systems engineering―thoroughly updated for the latest technologies Fully revised for the latest technologies and data, this hands-on guide clearly explains the design, evaluation, and environmental impact of both conventional and sustainable energy systems. You will get comprehensive coverage of all types of energy systems, from fossil fuels and nuclear energy to solar, wind, and biofuels. Energy Systems Engineering: Evaluation and Implementation, Fourth Edition lays out each technology and discusses applications, benefits, and liabilities. This edition contains brand-new chapters that cover energy conservation, small-scale hydropower, geothermal, and heat pump systems, among other subjects. Coverage includes: Engineering economic tools Climate change and climate modeling Fossil fuel resources Stationary combustion systems Energy conservation Carbon sequestration Nuclear energy systems Solar energy Solar photovoltaic technologies Active and passive solar thermal applications Wind energy systems Bioenergy resources and systems Transportation energy technologies, including electric vehicles Systems perspective on transportation energy Emerging technologies and systems Creating the twenty-first-century energy system
A definitive guide to energy systems engineering—thoroughly updated for the latest technologies This fully revised book features comprehensive coverage of all types of energy systems, from fossil fuels and nuclear energy to solar, wind, biofuels, and energy systems for transportation. Throughout, new and expanded examples and end-of-chapter problems help to provide a practical understanding of each topic. Written by a team of energy experts, Energy Systems Engineering Evaluation and Implementation, Third Edition, clearly explains how each technology works and discusses benefits and liabilities. You will get up-to-date information on global emission trends, the volatile price and supply of natural gas and oil, and the accelerated growth of alternative energy sources. Detailed methods to assess environmental impact, project scope, cost, energy consumption, and efficiency are provided. Offers a technology-neutral, portfolio approach to energy system options and policy tools Includes new and expanded discussions so small scale nuclear fusion, wind turbine designs for lower average wind speed, and electric vehicles Explains how to project future output from nonconventional oil and gas Covers waste-to-energy conversion and waste water energy recovery Features high-quality illustrations and tables
Engineer and implement sustainable transportation solutions Featuring in-depth coverage of passenger and freight transportation, this comprehensive resource discusses contemporary transportation systems and options for improving their sustainability. The book addresses vehicle and infrastructure design, economics, environmental concerns, energy security, and alternative energy sources and platforms. Worked-out examples, case studies, illustrations, equations, and end-of-chapter problems are also included in this practical guide. Sustainable Transportation Systems Engineering covers: Background on energy security and climate change Systems analysis tools and techniques Individual choices and transportation demand Transportation systems and vehicle design Physical design of transportation infrastructure Congestion mitigation in urban passenger transportation Role of intelligent transportation systems Public transportation and multimodal solutions Personal mobility and accessibility Intercity passenger transportation Freight transportation function and current trends Freight modal and supply chain management approaches Spatial and geographic aspects of freight transportation Alternative fuels and platforms Electricity and hydrogen as alternative fuels Bioenergy resources and systems Transportation security and planning for extreme weather events PRAISE FOR SUSTAINABLE TRANSPORTATION SYSTEMS ENGINEERING: "This book addresses one of the great challenges of the 21st century--how to transform our resource-intensive passenger and freight transportation system into a set of low-carbon, economically efficient, and socially equitable set of services." -- Dan Sperling, Professor and Director, Institute of Transportation Studies, University of California, Davis, author of Two Billion Cars: Driving toward Sustainability "...provides a rich tool kit for students of sustainable transportation, embracing a systems approach. The authors aptly blend engineering, economics, and environmental impact analysis approaches." -- Susan Shaheen, Professor, Department of Civil and Environmental Engineering, and Co-Director, Transportation Sustainability Research Center, University of California, Berkeley
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