Introductory technical guidance for electrical engineers, mechanical engineers and other professional engineers and cpnstruction managers interested in auxiliary electric power generating systems. Here is what is discussed: 1. APPLICATIONS, 2. AUTHORIZED FUEL TYPES, 3. ONSITE FUEL STORAGE CAPACITY, 4. ANALYSIS REQUIREMENTS, 5. DESIGN CRITERIA, 6. SINGLE GENERATOR SYSTEM CONFIGURATIONS, 7. PARALLEL GENERATOR SYSTEM CONFIGURATIONS., 8. DESIGN CHECKLIST.
Introductory technical guidance for mechanical and electrical engineers interested in engine-driven generator systems. Here is what is discussed: 1. APPLICATIONS 2. AUTHORIZED FUEL TYPES 3. ONSITE FUEL STORAGE CAPACITY 4. ANALYSIS REQUIREMENTS 5. DESIGN CRITERIA 6. SINGLE GENERATOR SYSTEM CONFIGURATIONS 7. PARALLEL GENERATOR SYSTEM CONFIGURATIONS. 8. DESIGN CHECKLIST.
The comprehensive guide to engineering alternative and renewable energy systems and applications—updated for the latest trends and technologies This book was designed tohelp engineers develop new solutions for the current energy economy. To that end it provides technical discussions, along with numerous real-world examples of virtually all existing alternative energy sources, applications, systems and system components. All chapters focus on first-order engineering calculations, and consider alternative uses of existing and renewable energy resources. Just as important, the author describes how to apply these concepts to the development of new energy solutions. Since the publication of the critically acclaimed first edition of this book, the alternative, renewable and sustainable energy industries have witnessed significant evolution and growth. Hydraulic fracturing, fossil fuel reserve increases, the increasing popularity of hybrid and all-electric vehicles, and the decreasing cost of solar power already have had a significant impact on energy usage patterns worldwide. Updated and revised to reflect those and other key developments, this new edition features expanded coverage of topics covered in the first edition, as well as entirely new chapters on hydraulic fracturing and fossil fuels, hybrid and all-electric vehicles, and more. Begins with a fascinating look at the changing face of global energy economy Features chapters devoted to virtually all sources of alternative energy and energy systems Offers technical discussions of hydropower, wind, passive solar and solar-thermal, photovoltaics, fuel cells, CHP systems, geothermal, ocean energy, biomass, and nuclear Contains updated chapter review questions, homework problems, and a thoroughly revised solutions manual, available on the companion website While Alternative Energy Systems and Applications, Second Edition is an ideal textbook/reference for advanced undergraduate and graduate level engineering courses in energy-related subjects, it is also an indispensable professional resource for engineers and technicians working in areas related to the development of alternative/renewable energy systems.
Written in clear, concise language and designed for an introductory applied energy course, Applied Energy: An Introduction discusses energy applications in small-medium enterprises, solar energy, hydro and wind energy, nuclear energy, hybrid energy, and energy sustainability issues. Focusing on renewable energy technologies, energy conversion, and conservation and the energy industry, the author lists the key aspects of applied energy and related studies, taking a question-based approach to the material that is useful for both undergraduate students and postgraduates who want a broad overview of energy conversion. The author carefully designed the text to motivate students and give them the foundation they need to place the concepts presented into a real-world context. He begins with an introduction to the basics and the definitions used throughout the book. From there, he covers the energy industry and energy applications; energy sources, supply, and demand; and energy management, policy, plans, and analysis. Building on this, the author elucidates various energy saving technologies and energy storage methods, explores the pros and cons of fossil fuels and alternative energy sources, and examines the various types of applications of alternative energies. The book concludes with chapters on hybrid energy technology, hybrid energy schemes, other energy conversion methods, and applied energy issues. The book takes advantage of practical and application-based learning, presenting the information in various forms such as essential notes followed by practical projects, assignments, and objective and practical questions. In each chapter, a small section introduces some elements of applied energy design and innovation, linking knowledge with applied energy design and practice. The comprehensive coverage gives students the skills not only to master the concepts in the course, but also apply them to future work in this area.
Comprehensively covers the fundamental scientific principles and technologies that are used in the design of modern computer-controlled machines and processes. Covers embedded microcontroller based design of machines Includes MATLAB®/Simulink®-based embedded control software development Considers electrohydraulic motion control systems, with extensive applications in construction equipment industry Discusses electric motion control, servo systems, and coordinated multi-axis automated motion control for factory automation applications Accompanied by a website hosting a solution manual
Power electronics is an area of extremely important and rapidly changing technology. Technological advancements in the area contribute to performance improvement and cost reduction, with applications proliferating in industrial, commercial, residential, military and aerospace environments. This book is meant to help engineers operating in all these areas to stay up-to-date on the most recent advances in the field, as well as to be a vehicle for clarifying increasingly complex theories and mathematics. This book will be a cost-effective and convenient way for engineers to get up-to-speed on the latest trends in power electronics. The reader will obtain the same level of informative instruction as they would if attending an IEEE course or a training session, but without ever leaving the office or living room! The author is in an excellent position to offer this instruction as he teaches many such courses. - Self-learning advanced tutorial, falling between a traditional textbook and a professional reference. - Almost every page features either a detailed figure or a bulleted chart, accompanied by clear descriptive explanatory text.
Many of the economic road blocks which have previously served to discourage the implementation of alternative power generation technologies can now be readily overcome through effective energy resource optimization. It is now a fact that solid financial returns can be achieved from combined heating, cooling and power generation projects by integrating energy and cost efficiency goals, and seeking a match between power production and heating/cooling requirements. This book is intended to serve as a road map to those seeking to realize optimum economic returns on such projects. The first section provides an introduction to basic heat and power thermodynamics, with an overview of heat and power generation technologies and equipment. The second section explores the infrastructure in which the project must be implemented, including environmental considerations, as well as utility rate structures. The third section provides detailed coverage of a broad range of technology types, and discusses how opportunities for their application can be identified and successfully exploited. The final section takes you through each step of project development, implementation and operation. Numerous examples are provided of actual field applications, with supporting documentation of system layouts and performance. The text is supplemented with more than one thousand graphics, including photos, cutaway drawings, layout schematics, performance curves, and data tables.
A comprehensive reference to renewable energy technologies with a focus on power generation and integration into power systems This book addresses the generation of energy (primarily electrical) through various renewable sources. It discusses solar and wind power—two major resources that are now in use in small as well as large-scale power production—and their requirements for effectively using advanced control techniques.In addition, the book looks at theintegration of renewable energy in the power grid and its ability to work in a micro grid. Operation and Control of Renewable Energy Systems describes the numerous types of renewable energy sources available and the basic principles involving energy conversion, including the theory of fluid mechanics and the laws of thermodynamics. Chapter coverage includes the theory of power electronics and various electric power generators, grid scale energy storage systems, photovoltaic power generation, solar thermal energy conversion technology, horizontal and vertical wind turbines for power generation, and more. Covers integration into power systems with an emphasis on microgrids Introduces a wide range of subjects related to renewable energy systems, including energy storage, microgrids, and battery technologies Includes tutorial materials such as up-to-date references for wind energy, grid connection, and power electronics—plus worked examples and solutions Operation and Control of Renewable Energy Systems is the perfect introduction to renewable energy technologies for undergraduate and graduate students and can also be very useful to practicing engineers.
In just the last few years, the increase in worldwide photovoltaic (PV) shipments has grown from 15 to 25 percent per year. Grid-connected applications have surpassed stand-alone applications, system components have realized significant improvements, and major efforts are underway to build a quality control infrastructure for PV systems. Such rapid growth and evolution continues to put engineers skilled in PV systems at a premium. Thoroughly updated, Photovoltaic Systems Engineering, Second Edition offers a practical engineering basis for PV system design. It provides quick exposure to all system building blocks, then examines both the whys and hows of the electrical, mechanical, economic, and aesthetic aspects of PV system design-why certain designs are done in certain ways and how the design process is implemented. Students mastering the contents of this book will have the engineering judgement needed to make intelligent decisions based on a clear understanding of the parameters involved in PV systems. Highlights of the Second Edition: Y Complete updates to each chapter that incorporate currently available system components and recent changes in codes and standards Y Increased emphasis on design trade-offs and the design of grid-connected systems Y New discussions on site evaluation, and battery connections Y A new section on array mounting system design Y A new section on utility interactive residential PV systems Y A new section on curve fitting using Excel Y A new appendix that presents a recommended format for submitting PV design packages for permitting or design review purposes Y Examples and exercises replaced or modified to incorporate contemporary components, such as the Linear Current Booster
Introductory technical guidance for electrical engineers and other professional engineers and construction managers interested in electric power distribution. Here is what is discussed: 1. EXTERIOR ELECTRIC POWER DISTRIBUTION, 2. ELECTRIC POWER DISTRIBUTION EQUIPMENT, 3. INTERIOR ELECTRICAL POWER DISTRIBUTION AND UTILIZATION, 4. PROTECTIVE SWITCHING DEVICES, 5. TRANSFORMER TESTING, 6. RELAYS AND CONTROLS, 7. MOLDED CASE CIRCUIT BREAKERS, 8. SODIUM HEXAFLUORIDE CIRCUIT BREAKERS, 9. ELECTRIC POWER SYSTEM PRINCIPLES.
