1.使學生認識：熱力學之基本觀念及術語，及常見的工作媒介，例如，水、冷媒、理想氣體等其狀態與性質之關係。
2.再經由不同的分析方法，例如，熱力學第一定律應用於：熱力循環、開放系統、密閉系統之過程，該如何建立能量平衡方程式。
3.熱力學第二定律應用於：熱力循環、熱力過程；最後再介紹混合物之狀態與性質之關係，及其應用，例如：空調，燃燒等。
4.使學生能夠應用這些方法於實際的機熱工機械中，例如熱機之原動力廠、Otto與Diesel引擎、燃氣與蒸汽輪機，冷凍機之冰箱、冷氣機、暖氣機問題中

1. The basic conceptions of thermodynamics
Thermodynamics and energy, dimension and units, closed and opened system, state and balance, process and cycle, types of the energy.
2. The properties of the material
Pure material, phases of pure materials, phase varied process of pure material, property chart, ideal gas, specific heat, internal energy.
3.Energy Transfer by Heat, Work, and Mass
Heat transfer, energy transfer of the work, mechanical work, non- mechanical work, mass conservation law.
4.The First Law of Thermodynamics
The first law of thermodynamics, the energy balance of closed system, the energy balance of opened system, some engineering devices of steady flow system.
5.The Second Law of Thermodynamics
The basic of second law, heat reservoir, heat engine, the energy transformation efficiency, refrigerator and heat pump, reversible and irreversible.
6.Entropy
Entropy, increase of entropy principle, entropy change of pure material, isotropic process, Mollier chart, what is entropy, entropy change of liquid and solid.
7. Power cycle
Basic consideration of the power cycle, Carnot cycle, Otto and Diesel cycle, Stirling and Ericsson cycle, Carnot steam cycle, Brayton cycle, Rankune cycle.
8. Refrigeration and air conditioning
Refrigerator heat pump, Steam compressed refrigeration cycle, refrigerant, heat pump system, dry air and atmosphere, specific humidity and relative humidity.

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