Homepage » ALL COURSE » College of Engineering » Thermodynamics (I) – 108 Academic Year | Department of Mechanical Engineering, Prof. Yao-Hsien Liu
本課程是由 國立陽明交通大學機械工程學系 提供。
This course covers the basic knowledge of thermodynamics and engineering applications. It is a fundamental course in the thermal-fluid science and also the prerequisite of fluid mechanics and heat transfer.
Textbook:
Fundamentals of Thermodynamics, by Claus Borgnakke and R.E. Sonntag, SI Version, 9th ed., 2017, John Wiley & Sons, Inc.
For perfect learning results, please buy textbooks!
Instructor(s) | Department of Mechanical Engineering, Prof. Yao-Hsien Liu |
---|---|
Course Credits | 3 Credits |
Academic Year | 108 Academic Year |
Level | College Students |
Prior Knowledge | Physics |
Related Resources | Course Video Course Syllabus Course Calendar |
Week | Course Content | Course Video |
---|---|---|
Introduction, Definition and Scope of Thermodynamics | Watch Online | |
Chap. 1 Zeroth law of Thermodynamic 1.1 Thermodynamic system | Watch Online | |
1.2 Macroscopic and Microscopic | Watch Online | |
1.3 Properties and states of substance | Watch Online | |
1.4 Process and cycle 1.5 Units 1.6 Specific volume and density | Watch Online | |
1.7 Absolute pressure and Gauge pressure 1.8 Energy | Watch Online | |
1.9-1.11 Properties of a pure substance | Watch Online | |
Chap.2 Pure substance properties 2.1-2.3 Pure substance behavior | Watch Online | |
2.4 Temperature | Watch Online | |
2.5 Two phase state 2.6 Solid and Liquid 2.7 Superheated vapor 2.8 Ideal gas 2.9 Compressibility factor | Watch Online | |
Chap.3 First Law of Thermodynamics 3.1-3.2 The energy equation 3.3 Definition of work | Watch Online | |
3.4 Work 3.5 Heat | Watch Online | |
3.6 Heat transfer | Watch Online | |
3.7 Internal energy 3.8 Problem analysis and solution technique | Watch Online | |
3.10 Specific heat 3.11 Ideal gas (u、h、c) | Watch Online | |
3.13 Transient process 3.14 General system that involve work Chap.4 Energy equation for a control volume 4.1 Conservation of mass 4.2 The energy equation for control volume 4.3 Steady state process 4.4 Steady flow devices | Watch Online | |
4.4 Steady flow devices | Watch Online | |
4.4 Steady flow devices 4.6 Transient (unsteady) process Chap.5 Second law of thermodynamics | Watch Online | |
5.1 Heat engine 5.2 Refrigerator | Watch Online | |
5.2 Refrigerator 5.3 Reversible process 5.4 Factors that render processes irreversible 5.5 Carnot cycle 5.6 Carnot principles 5.7-5.8 Temperature scale(Kelvin) 5.9 Ideal vs Real machine | Watch Online | |
5.9 Ideal vs Real machine | Watch Online | |
5.10 Clausius inequality Chap.6 Entropy 6.1 Definition of Entropy 6.2 Entropy of a pure substance 6.3 Entropy change in reversible process | Watch Online | |
6.4 Thermodynamic property relation 6.5 Entropy change of a solid or liquid 6.6 Entropy change of an ideal gas | Watch Online | |
6.7 Polytropic process 6.8 Entropy change of a control mass during irreversible process 6.9-6.10 Entropy generation in Entropy equation 6.11 Entropy as a rate equation | Watch Online | |
7.3 Steady state single-flow process | Watch Online | |
7.3 Steady state single-flow process | Watch Online | |
7.4 Principle of the increase of entropy 7.5 Efficiency (Isentropic efficiency) Chap.8 Exergy 8.1 Available energy, reversible work and irreversibility | Watch Online | |
8.1 Available energy, reversible work and irreversibility | Watch Online | |
8.2 Exergy 8.3 Second law efficiency | Watch Online | |
8.2 Exergy 8.3 Second law efficiency | Watch Online | |
8.4 Exergy balance equation | Watch Online |
課程目標
This course covers the basic knowledge of thermodynamics and engineering applications. It is a fundamental course in the thermal-fluid science and also the prerequisite of fluid mechanics and heat transfer.
課程章節
章節 | 章節內容 |
Introduction of Thermodynamics | Thermodynamic System, Control Volume, Processes and Cycles, Units, Specific Volume and Density |
Pure Substance Behavior | Definition of Pure Substances, Phase Equilibrium, Thermodynamic Tables, Compressibility Factor, Equation of States |
Energy Transfer - Work and Heat | Definition of Work, Examples of Work, Definition of Heat, Heat Transfer Modes, Comparison of Heat and Work |
First Law of Thermodynamics | First Law of Thermodynamics, Internal Energy, Enthalpy, Constant Pressure and Constant Volume Specific Heat, Conservation of Mass, Steady State Process |
Classical Second Law of Thermodynamics | Heat Engines and Refrigerators, Reversible Process, Carnot Cycle and Efficiency |
Second Law of Thermodynamics and Entropy | Clausius Inequality, Definition of Entropy, Entropy Change Process, Entropy Equation for Control Mass and Control Volume |
Availability | Available Energy, Reversible Work, Irreversibility, Energy Balance Equation |
課程書目
Fundamentals of Thermodynamics, by Claus Borgnakke and R.E. Sonntag, SI Version, 9th ed., 2017, John Wiley & Sons, Inc.
評分標準
項目 | 百分比 |
期中考試 | 60% |
期末考試 | 40% |
本課程行事曆提供課程進度與考試資訊參考。
學期週次 | 上課日期 | 參考課程進度 |
第一週 | 2019/09/09 | Introduction Definition Scope of Thermodynamics |
2019/09/13 |
| |
第二週 | 2019/09/16 |
|
2019/09/20 | ||
第三週 | 2019/09/23 |
|
2019/09/27 | ||
第四週 | 2019/09/30 |
|
2019/10/04 |
| |
第五週 | 2019/10/07 |
|
2019/10/11 |
| |
第六週 | 2019/10/14 |
|
2019/10/18 | ||
第七週 | 2019/10/21 |
|
2019/10/25 | ||
第八週 | 2019/10/28 |
|
2019/11/01 |
| |
第九週 | 2019/11/04 | First Law of Thermodynamics, Engineering Applications |
2019/11/08 |
| |
第十週 | 2019/11/11 |
|
2019/11/15 | ||
第十一週 | 2019/11/18 |
|
2019/11/22 | ||
第十二週 | 2019/11/25 |
|
2019/11/29 | ||
第十三週 | 2019/12/02 |
|
2019/12/06 | ||
第十四週 | 2019/12/09 |
|
2019/12/13 | ||
第十五週 | 2019/12/16 |
|
2019/12/20 |
| |
第十六週 | 2019/12/23 |
|
2019/12/27 |
| |
第十七週 | 2019/12/30 |
|
2020/01/03 | ||
第十八週 | 2020/01/06 |
|
2020/01/10 |