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Advances in Steam Turbines for Modern Power Plants provides an authoritative review of steam turbine design optimization, analysis and measurement, the development of steam turbine blades, and other critical components, including turbine retrofitting and steam turbines for renewable power plants. As a very large proportion of the world's electricity is currently generated in systems driven by steam turbines, (and will most likely remain the case in the future) with steam turbines operating in fossil-fuel, cogeneration, combined cycle, integrated gasification combined cycle, geothermal, solar thermal, and nuclear plants across the world, this book provides a comprehensive assessment of the research and work that has been completed over the past decades. - Presents an in-depth review on steam turbine design optimization, analysis, and measurement - Written by a range of experts in the area - Provides an overview of turbine retrofitting and advanced applications in power generation
A practical reference on the operating characteristics, efficiencies, design features, reliability and maintenance of compressors and steam turbine drives, the types used in heavy process industries. Much of the material has been taken from steam turbine and compressor manufacturers from the USA and Europe. The user-oriented handbook focuses on techniques and selection process, as well as analysis problems, prevention, and maintenance and troubleshooting techniques.
Many of the earliest books, particularly those dating back to the 1900s and before, are now extremely scarce and increasingly expensive. We are republishing these classic works in affordable, high quality, modern editions, using the original text and artwork.
This title provides a reference on technical and economic factors of combined-cycle applications within the utility and cogeneration markets. Kehlhofer - and hos co-authors give the reader tips on system layout, details on controls and automation, and operating instructions.
This book is an excellent example of the practical application of thermodynamics & fluid flow fundamentals to the solution of performance problems in power plants. Current design practices & methods for testing steam turbines & interpreting the test results are presented. This book concentrates on measuring turbine & cycle-component performance & on calculating the effects that measured deviations from design values (e.g., increased steam-path clearances, blade deposits, or solid particle erosion) have on turbine efficiency. In an impressive array of examples, measured performance & current design data are compared to quantify performance losses. Then, using these measurements & deductive reasoning, the book pinpoints problem areas that help identify the nature of the deficiency & proposes remedial action. This book develops a better appreciation for optimum turbine design which enables the evaluation of proposed efficiency improvements. It also quantifies the effect of power plant operation (abnormal conditions) on turbine efficiency, throttle flow & stage pressures. The revised edition includes chapters on co-generation & combind cycles. This book was written for engineers responsible for the efficient operation of electric utilities, power plants & cogeneration plants. Review questions have been provided so that this material may be used as a textbook or reference book in colleges & universities. To order: Cotton Fact Inc., 346 Kingsley Rd., Burnt Hills, NY 12027. Phone: 518-384-7885. www.cottonfact.com.
Written for the plant engineer, this book shows how to apply condition monitoring by performance analysis to steam turbines. Its aim is to assist to assist with performance problem solving and in decision making on steam turbine maintenance.
This is the first comprehensive history of the steam engine in fifty years. It follows the development of reciprocating steam engines, from their earliest forms to the beginning of the twentieth century when they were replaced by steam turbines.
Introductory technical guidance for mechanical engineers and other professional engineers and construction managers interested in steam turbines. Here is what is discussed: 1. TYPICAL PLANTS AND CYCLES 2. COGENERATION IN STEAM POWER PLANTS 3. TURBINE TYPES 4. TURBINE GENERATOR SIZES 5. TURBINE THROTTLE PRESSURE AND TEMPERATURE 6. TURBINE EXHAUST PRESSURE 7. LUBRICATING OIL SYSTEMS 8. GENERATOR TYPES 9. GENERATOR COOLING 10. TURBINE GENERATOR CONTROL 11. TURNING GEAR 12. TURBINE GENERATOR FOUNDATIONS 13. AUXILIARY EQUIPMENT 14. INSTALLATION 15. CLEANUP, STARTUP, AND TESTING 16. OPERATION.