課程名稱 |
熱傳學 Heat Transfer |
開課學期 |
111-1 |
授課對象 |
機械工程學系 |
授課教師 |
許 麗 |
課號 |
ME3003 |
課程識別碼 |
502E33100 |
班次 |
03 |
學分 |
3.0 |
全/半年 |
半年 |
必/選修 |
必修 |
上課時間 |
星期二2(9:10~10:00)星期五3,4(10:20~12:10) |
上課地點 |
新302新304 |
備註 |
本課程以英語授課。 限本系所學生(含輔系、雙修生) 總人數上限:55人 |
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課程簡介影片 |
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核心能力關聯 |
核心能力與課程規劃關聯圖 |
課程大綱
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課程概述 |
We will learn how heat can be transferred via conduction, convection and radiation. We will derive governing equations, specify boundary conditions and solve for analytic solutions. We will discuss how theoretical analysis may guide strategies in real application while paying attention to the physical aspects. |
課程目標 |
This course is an introduction to the principal concepts and methods of heat transfer. The objectives of this integrated subject are to develop the fundamental principles and laws of heat transfer and to explore the implications of these principles for system behavior; to formulate the models necessary to study, analyze and design heat transfer systems through the application of these principles; to develop the problem-solving skills essential to good engineering practice of heat transfer in real-world applications. |
課程要求 |
Calculus |
預期每週課後學習時數 |
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Office Hours |
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指定閱讀 |
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參考書目 |
1. Theodore L. Bergman, Adrienne S. Lavine, Frank P. Incropera, David P. Dewitt, 2011,
Fundamentals of Heat and Mass Transfer, 7th ed., John Wiley & Sons, New York.
2. John H. Lienhard IV, John H. Lienhard V, 2012, A Heat Transfer Textbook, v. 2.02
(available online http://web.mit.edu/lienhard/www/ahtt.html). |
評量方式 (僅供參考) |
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週次 |
日期 |
單元主題 |
Week 1 |
9/6 |
Introduction to heat transfer
9/9 Moon Festival Holiday (no class) |
Week 2 |
9/13,9/16 |
Heat conduction: Fourier’s Law, general heat conduction equation, boundary and initial conditions |
Week 3 |
9/20,9/23 |
1D steady-state conduction, heat generation in a solid, variable heat conductivity. |
Week 4 |
9/27,9/30 |
Thermal resistance network: multilayer plane walls, thermal contact resistance, cylinders and spheres, finned surfaces. |
Week 5 |
10/4,10/7 |
Transient conduction: lumped system analysis, transient heat conduction in large plane walls, semi-infinite solids |
Week 6 |
10/11,10/14 |
Convection: boundary layers, laminar and turbulent flow |
Week 7 |
10/18,10/21 |
Nondimensionalized convection equations, similarity, friction and convection coefficients, analogies between momentum and heat transfer |
Week 8 |
10/25 |
External forced convection: flat plate, cylinders, spheres |
Week 8 |
10/28 |
Midterm exam |
Week 9 |
11/1,11/4 |
Internal forced convection: general thermal analysis, laminar and turbulent flow in tubes |
Week 10 |
11/8,11/11 |
Natural convection: governing equations, Grashof number, plane and finned surfaces, enclosures |
Week 11 |
11/15,11/18 |
Boiling and condensation: boiling modes, pool boiling and flow boiling, film and dropwise condensation |
Week 12 |
11/22,11/25 |
Heat exchangers: types, log mean temperature difference method; Effectiveness-NTU method |
Week 13 |
11/29,12/2 |
Fundamentals of Radiation: radiation intensity, blackbody radiation, emissivity, absorptivity, reflectivity, transmissivity; |
Week 14 |
12/6,12/9 |
Thermal Radiation: continued |
Week 15 |
12/13,12/16 |
Radiation Heat Transfer: View factor, diffuse and gray surfaces, Net radiation H.T. between two surfaces, Radiation shields |
Week 16 |
12/20 |
Introduction to Mass Transfer |
Week 16 |
12/23 |
Final Exam |
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