Course Title : Transport Phenomena

Code 10G039
Course Year Master and Doctor Course
Term 2nd term
Class day & Period Fri 3rd
Location C3-Lecture Room 2
Credits 2
Restriction
Lecture Form(s) Lecture
Language Japanese
Instructor Nakabe, Kazuyoshi,Tatsumi, Kazuya,

Course Description

The important learning objective of this class is to understand the fundamental mechanisms of momentum, heat, and mass transfer phenomena, the knowledge of which will be markedly required for the thermal energy control technologies to further practice conservations of natural resources and energies for sustainable development. Heat and mass transfer processes consisting of conduction and forced/natural convection will be highlighted in detail, referring to the similarity characteristics of flow velocity, fluid temperature, and species concentration. Some topics on Reynolds stress, turbulent heat flux, and phase change will be introduced, expanding to their numerical models, together with some recent trends of high-tech heat and energy devices.

Grading

Course Goals

Course Topics

Theme Class number of times Description
Surrounding Examples of Transport Phenomena 1
Governing Equations and Non-Dimensional Parameters 3~4
Boundary Layer Flows 2~3
External and Internal Flows 1~2
Turbulent Phenomena 2~3
Topics of Flow and Heat Transfer Mechanism 2~3
Estimation on Study Achievement 1

Textbook

Textbook(supplemental)

Example: Transport Phenomena (Bird, R.B. et al.)

Prerequisite(s)

Independent Study Outside of Class

Web Sites

Additional Information