 | Gas Turbine Combined Cycle Power Plants Subjects: Engineering & Technology; Mathematics & Statistics; Power & Energy; Chemical Engineering; Mechanical Engineering; Applied Mathematics; Combustion; Plant Engineering & Maintenance; Renewable Energy; Energy & Fuels; Thermodynamics; Heat Transfer; This book covers the design, analysis, and optimization of the cleanest, most efficient fossil fuel-fired electric power generation technology at present and in the foreseeable future. The book contains a wealth of first principles-based calculation methods comprising key formulae, charts, rules of thumb, and other tools developed by the author over the course of 25+ years spent in the power generation industry. It is focused exclusively on actual power plant systems and actual field and/or rating data providing a comprehensive picture of the gas turbine combined cycle technology from performance and cost perspectives. Material presented in this book is applicable for research and development studies in academia and government/industry laboratories, as well as practical, day-to-day problems encountered in the industry (including OEMs, consulting engineers and plant operators). Dr. S. Can Gülen (PhD 1992, Rensselaer Polytechnic Institute, Troy, NY), PE, ASME Fellow , has 25 years of mechanical engineering experience covering a wide spectrum of technology, system, and software design, development (GTPRO/MASTER, Thermoflex), assessment, and analysis, primarily in the field of steam and gas turbine combined cycle (109FB-SS, IGCC 207FB, H-System) process and power plant turbomachinery and thermodynamics (in Thermoflow, Inc., General Electric and Bechtel). Dr. Gülen has authored/co-authored numerous internal/external archival papers and articles (40+), design practices, technical assessment reports, and US patents (20+) on gas turbine performance, cost, optimization, data reconciliation, analysis and modelling. |
