課程大綱

課程資訊

課程名稱

高等熱傳學
Advanced Heat Teansfer

開課學期

104-2

授課對象

工學院機械工程學研究所

授課教師

黃信富

課號

ME5150

課程識別碼

522EU3740

班次

學分

全/半年

半年

必/選修

選修

上課時間

星期一3,4,5(10:20~13:10)

上課地點

工綜211

備註

本課程以英語授課。
總人數上限：40人

Ceiba 課程網頁

http://ceiba.ntu.edu.tw/1042ME5150_AdvHT

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課程概述

NOTE: This course is an ADVANCED LEVEL heat transfer, and also serves as one of the required subjects of the qualifying exam for Ph.D. students in the Mechanical Engineering Department. Heavy course load is to be expected.

NOTE: [本課程以英文授課] The lectures of this class will be given in English. However, you can ask or raise questions in Mandarin. My answers or replies will be in English during class, and in Mandarin/English after class based on your preferences.

NOTE: Class meets on Mondays 10:20--13:10, ten minute break from 11:40 to 11:50 for each meeting.

COURSE DESCRIPTION
This is a 3-unit half-year elective course on intermediate to advanced level conduction, convection, and radiation heat transfer directed towards graduate students and undergraduate upperclassman audiences. This course also serves as one of the required subjects of the qualifying exam for Ph.D. students in the Mechanical Engineering Department. Heavy course load is to be expected.

Three major topics are to be discussed in this class. They are:
1. Steady and unsteady 1D and multidimensional conduction heat transfer.
2. Laminar/turbulent forced and natural convection heat transfer of internal and external flows with additional focuses on boiling and condensation phenomena.
3. Radiation heat transfer for black, gray diffuse, and gaseous bodies.

Our discussions for each of the topics are to be directed towards two directions:
1. Classical mathematical and analytical techniques.
2. Modeling and approximation methods.

Active class participation and discussions are greatly encouraged.

課程目標

1. To understand the underlying physics and mechanisms governing the conduction, convection, and radiative heat energy transfer processes in general engineering systems from a macroscopic continuum point of view.

2. To acquire the classical mathematical tools and techniques required in analyzing conduction, convection, and radiation heat transfer problems.

3. To develop physical intuition and insights towards heat transfer problem solving so that general complex engineering heat transfer problems can be described by simple physical models and solved with minimum mathematical efforts, i.e., "back of the envelope calculations."

課程要求

Engineering Mathematics, Elementary Thermodynamics, Elementary Heat & Mass Transfer

預期每週課後學習時數

Office Hours

另約時間備註： TBA

指定閱讀

Class notes

參考書目

V.S. Arpaci, Conduction Heat Transfer, Addison-Wesley, 1966 (Ch 1-7)
L.C. Burmeister, Convective Heat Transfer, 2nd edn., John Wiley, 1993 (Ch 1-12)
A. Bejan, Convection Heat Transfer, 3rd edn., John Wiley, 2004
J.P. Holman, Heat Transfer, 10th edn., McGraw-Hill, 2010 (Chapter on radiation)
R. Siegel & J. Howell, Thermal Radiation Heat Transfer, 4th edn., Taylor &
Francis, 2002

評量方式
(僅供參考)

No.	項目	百分比	說明
1.	Mid-term exam	50%
2.	Final exam	50%

課程進度

週次	日期	單元主題
第1週	2/22	Introduction and equations governing heat conduction.
第2週	2/29	Holiday; No class.
第3週	3/07	Steady heat conduction: the Biot number.
第4週	3/14	Unsteady heat conduction: the Fourier number.
第5週	3/21	Modeling and Approximation Techniques for Conduction Problems
第6週	3/28	Governing equations for convection heat transfer.
第7週	4/04	Holiday; No class.
第8週	4/11	Laminar external forced convection.
第9週	4/18	Laminar internal forced convection.
第10週	4/25	Laminar external and internal natural convection.
第11週	5/02	Turbulence fundamentals.
第12週	5/09	Turbulent external convection.
第13週	5/16	Turbulent internal convection.
第14週	5/23	The Physics of Thermal Radiation.
第15週	5/30	Configuration (Shape) Factors and Radiative Transfer between Surfaces.
第16週	6/06	Problems on Black Body and Gray Diffuse Body Radiation.
第17週	6/13	Gaseous Radiation.
第18週	6/20	Final Exam