Course title
A0361400
Heat Transfer Engineering

 tange manabu Click to show questionnaire result at 2018
Course description
This course deals with elementary heat transfer principles, including heat conduction, heat convection, and radiation.
Exercise
Purpose of class
To master several governing equations of heat transfer.
Goals and objectives
  1. You can calculate the design parameter of heat transfer equipments by understanding heat transfer modes.
  2. You can estimate fields of physical quantities qualitatively and validate the thermal design.
  3. You can settle reasonable assumptions in actual thermal design.
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Thermodynamics and heat transfer Estimate time to boil water in a pot. 60minutes
2. Newton cooling law Estimate required power of a heater to maintain water bath temperature. 60minutes
3. Fourier's law Estimate required power of a heater to maintain water bath temperature with a insulation layer. 60minutes
4. Fins, conduction equation Design the radiation fins on a engine 60minutes
5. conduction equation Calculate annealing time to cool iron plates. 60minutes
6. Midterm exam. Review textbook 120minutes
7. Governing equations of fluid Design lab scale wind tunnel to emulate real scale airplane. 60minutes
8. Forced convection Calculate heat amount from hot plate to surrounding air flow. 60minutes
9. Natural convection Calculate heat amount from hot plate to stagnant air. 60minutes
10. Radiation Estimate heat transfer from inside wall of a oven to the oven door. 60minutes
11. Radiative heat transfer Reduce the radiative heat transfer from how iron plate to environment. 60minutes
12. Condensation Calculate ice thickness in a cup in a refrigerator. 60minutes
13. Heat transfer equipment Design the flow rate and size of heat exchanger. 60minutes
14. Final exam. Review lecture. 120minutes
Total. - - 960minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Mideterm exam Final exam Quiz Total.
1. 10% 10% 10% 30%
2. 10% 10% 10% 30%
3. 10% 20% 10% 40%
Total. 30% 40% 30% -
Evaluation method and criteria
Exercise in a lecture: 30%
Midterm exam.: 30%
Final exam.: 40%
Textbooks and reference materials
JSME textbook of Heat Transfer
Prerequisites
Elementary knowledge on thermodynamics and fluid dynamics
Office hours and How to contact professors for questions
  • Lunch time after lecture
Relation to the environment
Environment education course (40%)
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates a basic problem-solving skills
Active-learning course
About half of the classes are interactive
Last modified : Wed Oct 17 06:22:58 JST 2018