In this class, we discuss how to solve the problem regarding energy conversion processes.
Learning the methods to utilize basic knowledge such as mechanics, thermodynamics, fluid mechanics etc. for problem solving
regarding various energy conversion processes.
- Students will be able to apply various physical laws to the characterization and design of energy conversion processes
- From the viewpoint of energy conservation, students will be able to propose control methods suitable for individual energy conversion processes
- Students will be able to understand the characteristics of the energy conversion process in the unified way from the standpoint of analogies that are found in systems with different forms.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Introduction | Review of mechanics, thermodynamics and fluid mechanics | 200minutes |
| 2. | Heat exchanger | Review of overall heat transfer coefficient | 200minutes |
| 3. | Dynamics of heat exchanger | Review of unsteady energy equation | 200minutes |
| 4. | Temperature control of heat exchanger | Review of Laplace transformation and transfer function | 200minutes |
| 5. | Fluid transportation with pipe | Review of pressure drop in pipe flow | 200minutes |
| 6. | Power consumption evaluation in pipe flow | Review of characteristics of turbo pump | 200minutes |
| 7. | Thermodynamics of steam engine | Review of characteristics of steam | 200minutes |
| 8. | Energy conversion in blade row | Review of working principle of steam turbine | 200minutes |
| 9. | Speed control of steam turbine | Review of function of speed control in steam turbine | 200minutes |
| 10. | Thermodynamics of gas turbine cycle | Review of gas turbine cycle | 200minutes |
| 11. | Dynamics of internal combustion engine | Review of working principle of internal combustion engine | 200minutes |
| 12. | Modeling of chemical reaction process | Review of calculation method of chemical reaction heat | 200minutes |
| 13. | Energy conversion between electrical and mechanical | Review of working principle of electrical motor | 200minutes |
| 14. | Examination and explanation | Reviewing the contents studied in the lecture | 200minutes |
| Total. | - | - | 2800minutes |
| Discussion | Examination | Total. | |
|---|---|---|---|
| 1. | 12% | 28% | 40% |
| 2. | 12% | 28% | 40% |
| 3. | 6% | 14% | 20% |
| Total. | 30% | 70% | - |
Discussion (30%),Examination (70%)
Credit will be given only in the case that the score is equal or over 60% out of 100 % in total. Successful credit acquisition requires the ability to solve the same level of the problems as the ones picked up in the lecture.
Credit will be given only in the case that the score is equal or over 60% out of 100 % in total. Successful credit acquisition requires the ability to solve the same level of the problems as the ones picked up in the lecture.
It is assumed that students have basic knowledge of undergraduate level in physics, chemistry, thermodynamics, fluid dynamics,
heat transfer engineering, control engineering.
- Non-social and professional independence development course
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| N/A | N/A |
Last modified : Thu Mar 21 15:10:18 JST 2019