Termodinamika dari MIT

Thermodynamics Professor Z. S. Spakovszky Office: 31-265 Phone: 617-253-2196 Email: zolti@mit.edu Aero-Astro Web: http://mit.edu/aeroastro/people/spakovszky Gas Turbine Laboratory: home

Fall 2008

HAND-OUTS

Subject Information: Concepts, learning objectives, and measurable outcomes (pdf file)

Handout #1: Tips on how to solve problems in thermo-fluids engineering (pdf file)

Handout #2: Introduction to the 2nd law of thermodynamic (pdf file)

Handout #3: h-s diagram and thermodynamic properties of air (pdf file)*

Journey through a Jet Engine: Link to Rolls-Royce webpage

Gibbs: ASME Mechanical Engineering article "Stamp of Authenticity" (pdf file)

Index of Chapters:

1. Introduction to Thermodynamics

2. The First Law of Thermodynamics

3. The First Law Applied to Engineering Cycles

4. Background to the Second Law of Thermodynamics

5. The Second Law of Thermodynamics

6. Applications of the Second Law

7. Entropy on the Microscopic Scale

8. Power Cycles with Two-Phase Media

9. Introduction to Propulsion

10. Integral Momentum Equation

11. Aircraft Engine Performance

12. Energy Exchange with Moving Blades

13. Aircraft Performance

14. Rocket Performance

15. Generating Heat: Thermochemistry

16. Conductive Heat Transfer

17. Convective Heat Transfer

18. Generalized Conduction and Convection

19. Radiation Heat Transfer

* : Picture courtesy of Stanford University

** : Last update 4/12/2007

1. Course Introduction and Thermodynamic Concepts.
(Chapters 1.1 - 1.2 )

2. Changing the State of a System with Heat and Work.
(Chapter 1.3 )

3. Conservation of Energy - First Law of Thermodynamics
(Chapters 2.1 - 2.2 )

4. Enthalpy, Specific Heats

(Chapters 2.3 - 2.4 )

5. Control Volume Form of Conservation Laws
(Chapter 2.5.1 - 2.5.2 )

6. More on Control Volume Form of Conservation Laws
(Chapter 2.5.1 - 2.5.2 )

7. Stagnation Temperature and Stagnation Enthalpy
(Chapter 2.5.3)

8. Example Applications of the 1st Law of Thermodynamics
(Chapter 2.5.4 )

9. Engineering Cycles - The Carnot Cycle
(Chapter 3.1 - 3.3)

10. Refrigerators and Heat Pumps
(Chapter 3.4)

11. Otto and Diesel Cycles
(Chapters 3.5 - 3.6)

12. Brayton Cycle
(Chapter 3.7)

13. Gas Turbine Technology and Thermodynamics
(Chapter 3.7.2)

14. Reversibility and Irreversibility in Natural Processes
(Chapter 4.1 - 4.3)

15. The Second Law of Thermodynamics
(Chapter 5.1 - 5.2)

16. The Gibbs Equation
(Chapter 5.3)

17. Entropy Changes
(Chapter 5.4 - 5.5)

18. Limitations on Useful Work
(Chapter 6.1)

19. T-s and h-s Diagrams
(Chapter 6.3 - 6.4 )

20. Lost Work
(Chapter 6.5)

21. Unavailable Energy (Lost Work by Another Name)
(Chapter 6.6)

22. Examples of Lost Work in Engineering Processes
(Chapter 6.7)

23. More Examples of Lost Work in Engineering Processes
(Chapter 6.7)

Disusun Ulang Oleh:

Arip Nurahman

Pendidikan Fisika, FPMIPA. Universitas Pendidikan Indonesia
&
Follower Open Course Ware at MIT-Harvard University, USA.

Semoga Bermanfaat, Bersemangat dan Terima Kasih.