About the Book
This second edition to a popular first provides a comprehensive, fully updated treatment of advanced conventional power generation and cogeneration plants, as well as alternative energy technologies. Organized into two parts: Conventional Power Generation Technology and Renewable and Emerging Clean Energy Systems, the book covers the fundamentals, analysis, design, and practical aspects of advanced energy systems, thus supplying a strong theoretical background for highly efficient energy conversion.
New and enhanced topics include:
Large-scale solar thermal electric and photovoltaic (PV) plants
Advanced supercritical and ultra-supercritical steam power generation technologies
Advanced coal- and gas-fired power plants (PP) with high conversion efficiency and low environmental impact
Hybrid/integrated (i.e., fossil fuel + REN) power generation technologies, such as integrated solar combined-cycle (ISCC)
Clean energy technologies, including "clean coal," H2 and fuel cell, plus integrated power and cogeneration plants (i.e., conventional PP + fuel cell stacks)
Emerging trends, including magnetohydrodynamic (MHD)-generator and controlled thermonuclear fusion reactor technologies with low/zero CO2 emissions
Large capacity offshore and on-land wind farms, as well as other renewable (REN) power generation technologies using hydro, geothermal, ocean, and bio energy systems
Containing over 50 solved examples, plus problem sets, full figures, appendices, references, and property data, this practical guide to modern energy technologies serves energy engineering students and professionals alike in design calculations of energy systems.
Table of Contents:
Conventional Power Generation Technology
Fundamentals of Energy Conversion, Heat Transfer, and Fluid Mechanics
Fuel Combustion and Gasification
Steam Power Plant Technology
Gas Turbine Power Generation Technology
Gas Turbine-Based Combined-Cycle Power Plants
Cogeneration and Trigeneration
Power Plants’ Environment Impact Control
Renewable and Emerging Clean Energy Systems
Solar Thermal Energy Technology
Photovoltaic Technology
Hydro-Power, Wind, Geothermal, Marine, and Biomass Energy Systems
Advanced Energy Storage
Oxyfuel Combustion, Carbon Capture and Storage, Cleaner Coal Technologies
Emerging Clean Energy Technologies
Appendices
Subject Index
About the Author :
Nikolai V. Khartchenko received his BS/MS from Moscow Power Engineering Institute, Russia and Ph.D from the National Academy of Sciences of Ukraine, Kiev. He served as energy expert and consultant for the Chamber of Commerce and Industry of Berlin, Germany; Siemens, Berlin, Germany; and the Ministry of Power of the Russian Federation, Moscow; as well as in the private sector. He also worked for the Institute for Energy Engineering of the Technical University (TU), Berlin, Germany and Sri Ramaswamy Memorial University, Chennai, India. He holds six patents and participates in EuroSola, IRENA, DGS, VDI, Russian Engineering Society, and Alumni International of the TU Berlin.
Review :
"The chapters on combined cycles and cogeneration should be very useful for engineering students interested in power generation. These technologies will be very important in the near future as industrial nations work to make fossil fuel systems more environmentally acceptable, while also working to develop renewable and sustainable energy systems." --Geoffrey Cobourn, University of Louisville, Kentucky, USA "A good, comprehensive overview of the field, especially for students with a mechanical engineering background. Appropriate for seniors and first-year graduate students." --Pritpal Singh, Villanova University, Pennsylvania, USA "...Provides insight into a key area needed for the future development and implementation of intermittent renewable sources such as solar and wind energy. ...I would certainly use this text as a reference..." --Charles Knisely, Professor and Chair, Mech. Eng. Dept., Bucknell University, Lewisburg, Pennsylvania
