Cogeneration and Combined Cycle Plants Design Interconnection
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Cogeneration and Combined Cycle Plants Design Interconnection Presented at the 1990 International Joint Power Generation Conference, Boston, Massachusetts, ... October 21-25, 1990 (Pwr (Series), Vol. 11.) by International Joint Power Generation Conference (1990 Boston, Mass.)

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Published by Amer Society of Mechanical .
Written in English

Subjects:

  • Turbomachines,
  • Steam power plants,
  • Science/Mathematics,
  • Cogeneration of electric power,
  • Cogeneration of electric power and heat,
  • Congresses,
  • Gas power plants

Book details:

Edition Notes

ContributionsAmerican Society of Mechanical Engineers. Cogeneration and Small Power Producers Committee (Corporate Author)
The Physical Object
FormatPaperback
Number of Pages174
ID Numbers
Open LibraryOL7804001M
ISBN 10079180531X
ISBN 109780791805312

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A Handbook for Cogeneration and Combined Cycle Power Plants discusses the design, fabrication, installation, operation, and maintenance of combined cycle power plants. The book has been written to provide an overall view for the experienced engineer working in a specialized aspect of the subject and for the young engineering graduate or undergraduate student who is being exposed to the field of power plants . A new Chapter has been introduced entitled, Case Histories of Problems Encountered in Cogeneration and Combined Cycle Power Plants. This is an extensive treatise with figures and photographs illustrating the many problems associated with Combined Cycle Power Plants and some of the solutions that have enabled plants to achieved higher efficiencies and reliability.   Handbook for Cogeneration and Combined Cycle Power Plants by Meherwan Boyce. Book discusses the design, fabrication, installation, operation, and maintenance of combined cycle power plants. It covers cycle optimization and reliability, technical details on sizing, plant layout, fuel selection, types of drives, and performance characteristics of all major components in a cogeneration or combined cycle power plant. The author discusses design, fabrication, installation, operation, and maintenance.

A Combined-Cycle Cogeneration plant is outlined in Exhibit #3. This cycle combines in tandem, the gas turbine topping cycle with the steam turbine bottoming cycle, with an energy flow hierarchy of Fuel to Electricity to Process to Electricity. The book has many special features which include comparison of various energy systems, latest cycles and power augmentation and improved efficiency techniques. All the major plant equipment used in Combined Cycle and Cogeneration Power Plants has been s: 2. ORNL/TM/ GUIDE TO COMBINED HEAT AND POWER SYSTEMS FOR BOILER OWNERS AND OPERATORS C. B. Oland J Prepared for the U.S. Department of Energy. Combined-cycle power generation is a two-cycle electricity generation process that uses the heat from the first cycle to run a second cycle. 2) In the pyramid below, fill in the spaces with the terms efficiency, fuel switching, and conservation in order of importance.

A Handbook for Cogeneration and Combined Cycle Power Plants discusses the design, fabrication, installation, operation, and maintenance of combined cycle power plants. The book has been written to provide an overall view for the experienced engineer working in a specialized aspect of the subject and for the young engineering graduate or undergraduate student who is being exposed to the field 5/5(1). The amendment to the Public Utility Regulatory Policies Act created some unique challenges for the design of cogeneration plants in general and combined-cycle cogeneration plants in. A new Chapter has been introduced entitled, “Case Histories of Problems Encountered in Cogeneration and Combined Cycle Power Plants”. This is an extensive treatise with figures and photographs illustrating the many problems associated with Combined Cycle Power Plants and some of the solutions that have enabled plants to achieved higher efficiencies and reliability. consumption) that makes a combined cycle plant much more efficient than a simple cycle gas turbine peaking plant. Overall efficiency of converting fuel to electricity is greater than a peaking plant 44 to 52% (Heat Rate of 6, to 7, BTU/kWh). The steam portion of combined cycle plants takes approximately to 3 hours to heat up.