1. Introduction to Thermodynamic Property Relations 2. Internal Energy 3. Graphical representation of thermodynamic properties 4. Some Mathematical Theorems 5. Relations for sound speed and ideal gas 6. Maxwell’s Relations 7. Evaluation of Entropy 8. Derivation of Joule’s Law 9. Constant Volume Heating 10. Constant Pressure Heating 11. Adiabatic Volume Change 12. Sound Velocity in H2O 13. Isothermal Volume Change 14. Example of Compression of Solid 15. Constant Enthalpy Expansion 16. Joule-Thompson coefficient related to PvT data 17. Clapeyron Equation 18. Keypoints regarding Clapeyron Equation 19. Kinetic Theory of Gases 20. Kinetic Theory of Gases--State Equations and Specific Heats 21. Cp and Cv under the kinetic theory 22. Variation of CP with P at constant T 23. Variation of CV with v at constant T 24. Relation between CP and CV 25. Enthalpy Relations 26. Energy Relations 27. Entropy Relations 28. Summary of Energy, Enthalpy, and Entropy Calculations 29. Generating Thermodynamic Data Tables 30. Fuels 31. BASIS OF COMBUSTION ANALYSIS 32. Basic equations in combustion 33. AIR REQUIRED IN COMBUSTION 34. Mass and volume of the flue gas 35. THE COMBUSTION PROCESS 36. COMBUSTION OF FUELS IN AIR 37. EXHAUST GAS ANALYSES 38. FINDING THE AFR FROM AN EXHAUST GAS ANALYSIS 39. HIGHER AND LOWER CALORIFIC VALUES 40. Introduction to steam generators 41. Introduction to boilers 42. How Boilers Work 43. CLASSIFICATION OF BOILER 44. Boiler Specification The heating surface 45. Boiler Systems 46. Firetube boilers 47. Watertube boilers 48. Comparison of fire tube and water tube boilers 49. Lancashire Boiler 50. COCHRAN BOILER 51. BABCOCK WILCOX BOILER 52. BOILER MOUNTINGS 53. Water level Indicator 54. Pressure Gauge 55. Steam Safety Valve 56. Fusible Plug 57. Feed Check Valve and Steam Stop Valve 58. BOILER ACCESSORIES 59. Air Preheaters 60. FEED WATER HEATER 61. SUPER HEATER 62. Performance Evaluation of Boilers 63. Direct Method for obtaining boiler efficiency 64. Indirect Method for obtaining boiler efficiency 65. Equivalent Evaporation 66. Boiler Efficiency 67. Introduction to condenser 68. Air-cooled condensers 69. Water Cooled Condensers 70. Evaporative condensers 71. Air cooled vs water cooled condensers 72. Analysis of condensers 73. Condenser Heat Rejection Ratio 74. Mean temperature difference 75. Effect of air and non-condensables 76. Optimum condenser pressure for lowest running cost 77. Heat Transfer in Condensers 78. Vapour power cycles - Introduction 79. THE CARNOT VAPOUR CYCLE 80. Limitations of Carnot Cycle 81. RANKINE CYCLE 82. Calculations involved in Rankine Cycle 83. Specific Steam Consumption 84. Effect of Pressure at Throttle Condition 85. Effect of Temperature at Throttle Condition 86. ACTUAL VAPOUR POWER CYCLE 87. BINARY VAPOUR CYCLE 88. Binary Vapour Cycle Efficiency Calculation 89. REHEAT CYCLE 90. REGENERATIVE CYCLE 91. Cogeneration-introduction 92. Need for cogeneration 93. The Benefits of Cogeneration 94. Principle of Cogeneration 95. Steam turbine cogeneration systems 96. Gas turbine cogeneration systems 97. Reciprocating Engine Cogeneration System 98. Topping cycle 99. Bottoming cycle
Manufacturer: Ashish Kumar
Brand: Ashish Kumar
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