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

*If this is not the "Advanced Applied Thermodynamics" product you were looking for, you can check the other results by clicking this link.  Details were last updated on Nov 20, 2024 19:47 +08.