Theory of Aerospace Propulsion1 |
MANAKO Hiroyasu |
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【Aerospace Engineering・1st semester】
19-1-0267-4690 |
| 1. |
Outline |
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At first, the basis of thermodynamics will be reviewed followed up by studying several kinds of engine cycles.
Then the methods of evaluating the in-flow and out-flow of the thermal energy to and from the engine-cycle and the calculation of thermal efficiency will be studied.
Students will acquire the knowledge and techniques for the calculation related to DP1 and DP2.
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| 2. |
Objectives |
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As the basis to study the aero-propulsion systems such as Reciprocating engine, Turbo Jet engine, and Turbo Fan engine, this course aims that students will master the basic thermodynamics of the engine cycle and to calculate basic thermodynamical properties.
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| 3. |
Grading Policy |
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Evaluation will be done referring regular test.
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| 4. |
Textbook and Reference |
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Text "Hajimete manabu netsurikigaku", Takamoto Saito, Kazuhiro Hamaguchi, Koichi Hirata, published by Ohmsha.ISBN:978-4-274-08725-7
Supplementary materials will be presented by LMS.
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| 5. |
Requirements (Assignments) |
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Preparation (about 1.5 hour);Please read the contents corresponding to each lesson of the text book. And understand formulas and try deriving those by yourselves. Also please summarize what you do not understand in a notebook and ask questions by writing on a paper to be distributed every lesson.
Review (about 1.5 hour); Supplementary materials and examples of answers to exercises will be presented by LMS so please use them for your review. And please solve the exercises at the end of the each chapter.
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| 6. |
Note |
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| 7. |
Schedule |
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| 1. Chapter1 Thermal equipments and Thermodynamics |
| 2. Chapter2 Heat energy utiliziation technology |
| 3. Chapter1 and 2 Exercises |
| 4. Chapter3 Thermal energy and work |
| 5. Chapter4 Energy and state change (First law of thermodynamics) |
| 6. Chapter4 Energy and state change (Second law of thermodynamics, Work) |
| 7. Chapter4 Exercises for energy and state change |
| 8. Chapter5 State change of ideal gas |
| 9. Chapter5 Exercises for state change of ideal gas |
| 10. Chapter6 Engine cycle; Carnot cycle |
| 11. Chapter6 Engine cycle; Otto cycle and Diesel cycle |
| 12. Chapter6 Engine cycle; Brayton cycle |
| 13. Chapter6 Exercises for engine cycle |
| 14. Chapter7 Conversion of thermal energy to kinetic energy |
| 15. Chapter7 Exercises for conversion of thermal energy to kinetic energy |
|
| 1. |
Outline |
|
At first, the basis of thermodynamics will be reviewed followed up by studying several kinds of engine cycles.
Then the methods of evaluating the in-flow and out-flow of the thermal energy to and from the engine-cycle and the calculation of thermal efficiency will be studied.
Students will acquire the knowledge and techniques for the calculation related to DP1 and DP2.
|
| 2. |
Objectives |
|
As the basis to study the aero-propulsion systems such as Reciprocating engine, Turbo Jet engine, and Turbo Fan engine, this course aims that students will master the basic thermodynamics of the engine cycle and to calculate basic thermodynamical properties.
|
| 3. |
Grading Policy |
|
Evaluation will be done referring regular test.
|
| 4. |
Textbook and Reference |
|
Text "Hajimete manabu netsurikigaku", Takamoto Saito, Kazuhiro Hamaguchi, Koichi Hirata, published by Ohmsha.ISBN:978-4-274-08725-7
Supplementary materials will be presented by LMS.
|
| 5. |
Requirements (Assignments) |
|
Preparation (about 1.5 hour);Please read the contents corresponding to each lesson of the text book. And understand formulas and try deriving those by yourselves. Also please summarize what you do not understand in a notebook and ask questions by writing on a paper to be distributed every lesson.
Review (about 1.5 hour); Supplementary materials and examples of answers to exercises will be presented by LMS so please use them for your review. And please solve the exercises at the end of the each chapter.
|
| 6. |
Note |
|
|
| 7. |
Schedule |
|
| 1. Chapter1 Thermal equipments and Thermodynamics |
| 2. Chapter2 Heat energy utiliziation technology |
| 3. Chapter1 and 2 Exercises |
| 4. Chapter3 Thermal energy and work |
| 5. Chapter4 Energy and state change (First law of thermodynamics) |
| 6. Chapter4 Energy and state change (Second law of thermodynamics, Work) |
| 7. Chapter4 Exercises for energy and state change |
| 8. Chapter5 State change of ideal gas |
| 9. Chapter5 Exercises for state change of ideal gas |
| 10. Chapter6 Engine cycle; Carnot cycle |
| 11. Chapter6 Engine cycle; Otto cycle and Diesel cycle |
| 12. Chapter6 Engine cycle; Brayton cycle |
| 13. Chapter6 Exercises for engine cycle |
| 14. Chapter7 Conversion of thermal energy to kinetic energy |
| 15. Chapter7 Exercises for conversion of thermal energy to kinetic energy |
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