Advanced Applied Thermodynamics

Features

• 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

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