![]() MODERN POWER-PLANT CYCLES AND EQUIPMENT CYCLE ANALYSES 1.4 Choosing Best Options for Boosting Combined-Cycle Plant Output 1.4 Selecting Gas-Turbine Heat-Recovery Boilers 1.10 Gas-Turbine Cycle Efficiency Analysis and Output Determination 1.13 Determining Best-Relative-Value of Industrial Gas Turbines Using a LifeCycle Cost Model 1.18 Tube Bundle Vibration and Noise Determination in HRSGs 1.22 Determining Oxygen and Fuel Input in Gas-Turbine Plants 1.25 Heat-Recovery Steam Generator (HRSG) Simulation 1.28 Predicting Heat-Recovery Steam Generator (HRSG) Temperature Profiles 1.33 Steam Turbogenerator Efficiency and Steam Rate 1.36 Turbogenerator Reheat-Regenerative Cycle Alternatives Analysis 1.37 Turbine Exhaust Steam Enthalpy and Moisture Content 1.42 Steam Turbine No-Load and PartialLoad Steam Flow 1.43 Power Plant Performance Based on Test Data 1.45 Determining Turbogenerator Steam Rate at Various Loads 1.47 Analysis of Reheating-Regenerative Turbine Cycle 1.48 Steam Rate for Reheat-Regenerative Cycle 1.49 Binary Cycle Plant Efficiency Analysis Any use is subject to the Terms of Use as given at the website. Source: HANDBOOK OF MECHANICAL ENGINEERING CALCULATIONSÄownloaded from Digital Engineering Library McGraw-Hill (Copyright © 2006 The McGraw-Hill Companies.
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