Course Level |
Master's Degree |
Course Type |
Elective |
Course Objective |
Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel. |
Course Content
|
Thermodynamics and basic concepts, systems and control volumes, heat, work and the first law of thermodynamics, the first law of thermodynamics for closed systems, internal energy, enthalpy and specific heat relations of ideal gas, ideal gas equation, control volume for mass and energy analysis, the second law of thermodynamics, thermal energy storages, heat engines, Carnot cycle, thermodynamics condition changes, theoretical and actual cycles of internal combustion engines, Stirling and Ericson cycles, four-stroke spark ignition engine cycles, four-stroke compression ignition (diesel) engine cycles, differences between the ideal cycle with the actual cycle, applications, performance on engines, engine characteristics and performance curves, power, energy and efficiency relations, fuel, properties expected of fuel.
|
Prerequisites
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No the prerequisite of lesson.
|
Corequisite
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No the corequisite of lesson.
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Mode of Delivery
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Face to Face
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