Heat Transfer Engineering
| Course Purpose |
|---|
| In this course, students simultaneously learn basic theory of "heat and flow" and specific product applications. |
| Learning Goals |
| By the end of the course, students should be able to do the following: (1) Learn basic theory and applied product examples related to heat and flow, which are necessary for engineers. (2) Students will also learn about design applications by practicing numerical calculation. (3) Learn the importance of engineering theory in solving real-world problems and broaden their perspectives. |
| Topic | |
|---|---|
| Session 1 | Guidance / Overview: The significance of learning about "heat and flow" and introduction of application examples for developing actual products and solving social issues |
| Session 2 | Heat and flow (Basic edition): Steady state heat conduction theory and thermal resistance calculation method |
| Session 3 | Heat and flow (Basic edition): Theory of heat conduction fins and application to equipment cooling design |
| Session 4 | Heat and flow (Basic edition): Theory and practice of contact thermal resistance |
| Session 5 | Heat and flow (Basic edition): Design examples of unsteady heat conduction and transient thermal control |
| Session 6 | Heat and flow (Basic edition): Fundamentals of flow and forced convection heat transfer (1) |
| Sesson 7 | Heat and flow (Basic edition): Fundamentals of flow and forced convection heat transfer (2) |
| Session 8 | Heat and flow (Basic edition): Applied design examples of forced convection heat sinks and coolers |
| Session 9 | Heat and flow (Basic edition): Natural convection heat transfer and electronic equipment cooling examples |
| Session 10 | Heat and flow (Basic edition): Radiative heat transfer theory and thermal design examples for artificial satellites |
| Session 11 | Heat and flow (Applied edition): Heat exchanger design method and energy-saving air conditioning system design example (1) |
| Session 12 | Heat and flow (Applied edition): Heat exchanger design method and energy-saving air conditioning system design example (2) |
| session 13 | Heat and flow (Applied edition): Thermodynamics (refrigeration cycle theory) and application examples to energy-saving air conditioning systems |
| Session 14 | Summary: Trends and future prospects of the latest manufacturing / design and development technology |
| Session 15 | Preparation day |