Advanced Energy Science and Technology
| Numbering Code | G-ENE04 68026 LE28 | Year/Term | 2022 ・ Second semester | |
|---|---|---|---|---|
| Number of Credits | 2 | Course Type | Lecture | |
| Target Year | Target Student | |||
| Language | English | Day/Period | Wed.3 | |
| Instructor name |
DOI TOSHIYA (Graduate School of Energy Science Professor) KASHIWAYA YOSHIAKI (Graduate School of Energy Science Professor) SHIRAI YASUYUKI (Graduate School of Energy Science Professor) HIRATO TETSUJI (Graduate School of Energy Science Professor) MABUCHI MAMORU (Graduate School of Energy Science Professor) HAMA TAKAYUKI (Graduate School of Energy Science Professor) FUJIMOTO HITOSHI (Graduate School of Energy Science Professor) OOGAKI HIDEAKI (Institute of Advanced Energy Professor) Yuhei Miyauchi (Institute of Advanced Energy Professor) IWAO KAWAYAMA (Graduate School of Energy Science Associate Professor) MIYAKE MASAO (Graduate School of Energy Science Associate Professor) HASEGAWA MASAKATSU (Graduate School of Energy Science Associate Professor) HAKAMADA MASATAKA (Graduate School of Energy Science Associate Professor) KUSUDA HIROMU (Graduate School of Energy Science Associate Professor) KII TOSHITERU (Institute of Advanced Energy Associate Professor) NAKAJIMA TAKASHI (Institute of Advanced Energy Associate Professor) |
|||
| Outline and Purpose of the Course | This subject covers the essences of advanced energy science & technology. The basic principles are lectured of mineral resources and energy exploitation, physical chemistry, metallurgy and material science, fluid dynamics and heat transfer, mechanics, metallurgy and recycling, energy conversion and storage, fusion reactor materials design, microelectronics, laser engineering and space energy and resources. Attention is given to focus to establish environmentally friendly process technologies to sustain the development of our society. Each lecture ends with a requirement of report assignment. | |||
| Course Goals |
・To study scientific and technical knowledge on various researches related to the energy science and technology and examples of approaches from science and engineering viewpoints in energy- and environment-issues ・To establish basement of experise relevant to the Energy Science through report assignment |
|||
| Schedule and Contents |
Research topics in various research fields of the department are provided in omnibus style. Contents and order of lectures depend on situation in each academic year, and details of this subject, such as lecture schedule and lecturers, are posted and announced. Example of contents: ・Synthesis and Processing of High-Temperature Superconductors ・Applied Superconductivity to Energy Apparatus ・Advanced Rechargeable Batteries ・H2 Utilization and Reduction of CO2 Emission in Iron and Steelmaking Field ・Recent R&D on Light Metallic Materials ・Plasticity of Environmentally-Friendly Metals ・Physics of Liquid Jet Cooling to Hot Materials ・Physics of Energy Materials and Its Application to Advanced Energy Systems ・Advanced Laser Development and Applications ・Generation and Application of Quantum Radiation Energy |
|||
| Evaluation Methods and Policy |
I estimate it as a report problem to impose by each lecture by a normal point. I include evaluations such as the situation present about the normal point evaluation, and there is explanation about the details of the evaluation than each lecture person in charge separately. I assume the thing which averaged the evaluation point of the student attending a lecture in each lecture a global assessment point. |
|||
| Course Requirements | None | |||
| Study outside of Class (preparation and review) | There is no designation | |||
| Textbooks | Textbooks/References | I distribute a document as needed. | ||
| References, etc. | I introduce distribution and the reference book of reference materials more as needed than a lecture charge teacher. | |||
