查詢教學大綱與進度

教學大綱與進度

課程基本資料：

學年期課號課程名稱階段學分時數修教師班級人撤備註

110-1 293282 電腦輔助能源與熱流科學分析 1 3.0 3 ★ 施陽正能源所
能源與車輛外生專班 39 1 ◎能源所和車輛外生班合開

學年期	課號	課程名稱	階段	學分	時數	修	教師	班級	人	撤	備註
110-1	293282	電腦輔助能源與熱流科學分析	1	3.0	3	★	施陽正	能源所能源與車輛外生專班	39	1	◎能源所和車輛外生班合開

教學大綱與進度：

教師姓名施陽正

Email f10958@ntut.edu.tw

最後更新時間 2021-08-30 16:13:08

課程大綱 This course is suitable for graduate students who have taken engineering mathematics and basic thermofluid courses. The main content of the lecture is the application of Matlab and CFD package software to analyze related issues in the field of energy and thermofluid science, with emphasis on case studies. The course content mainly includes the use of numerical analysis to analyze the boundary layer problems, finite difference method to solve steady-state and transient heat conduction, and two-dimensional forced-driven flow problems. Case studies include the indoor airflow movement, cleanroom airflow distribution, heat exchanger performance analysis, analysis of ice storage system, electronic heat dissipation, and hydrogen energy system, etc.

課程進度 Class Content: 1 (1) Course outline (2) Ch1-Introduction to CFD (3) Ch2-Governing Equations (I) 2 (1) Ch2-Governing Equations (II) (2) Ch3-Types of Governing Equations (3) Ch4-Basics of Finite Difference (4) Ch5-Methods of Solving Sets of Algebraic Equations (I) HW#1 Tut1_Mixing Tee 3 (1) Ch5-Methods of Solving Sets of Algebraic Equations (II) (2) Ch6-Introduction to Finite Volume Method HW#2 Tut2_Mixing Elbow 4 Solving CFD with ANSYS FLUENT (I) Tut5_Indoor airflow 5 (1) Ch7-Cell zones and Boundary Conditions (2) Ch8-Meshing and Postprocessing (3) Ch9-V&V in CFD and Heat Transfer (I) HW#3 Tut4_Turbulent Pipe Flow 6 Ch9-V&V in CFD and Heat Transfer (II) 7 Ch10-Heat Transfer HW#4 Tut3_Laminar Pipe Flow and V&V 8 Solving CFD with ANSYS FLUENT (II) Tut6_Lid-Driven Flow HW#5 Tut10_S2S Radiation Model 9 Quiz 10 Ch11-Turbulence (I) 11 Ch11-Turbulence (II) 12 Solving CFD with ANSYS FLUENT (III) Tut7-Unsteady flow passing a cylinder 13 (1) Ch12-UDF (2) FVM for Diffusion Problems (3) FVM for Convection-Diffusion Problems (I) 14 (1) FVM for Convection-Diffusion Problems (II) (2) Calculation of the Flow Field (3) Algebraic Multigrid Method (AMG) 15 Solving CFD with ANSYS FLUENT (IV) Tut8_Axial fan HW#6 Cavity flow by AMG 16 Oral Presentation (I) HW#7 Tut9_AMG Init 17 Oral Presentation (II) 18 Final Exam & Hand in final report

評量方式與標準 Grading Policy： Homework and Attendance 25%, Quiz 15%, Final Exam 30%, Final Report(30%) Preliminary: With ability to use ANSYS FLUENT

使用教材、參考書目或其他 【遵守智慧財產權觀念，請使用正版教科書，不得使用非法影印教科書】

使用外文原文書：是
Textbook： Class note made by instructor Reference book： 1. Fox, R.W., Pritchard, P.J. and McDonald, A.T., “Introduction toFluid Mechanics”, 7th ed., 2010, John Wiley & Sons, Inc. 2. Kundu, P. K. and Cohen, I.M. “Fluid Mechanics”, 2008 3. White, F.M., “Viscous Fluid Flow”, 3rd ed., 2006. 4. JiJi, L.M., “Heat Convection”, Springer, 2006. 5. Wong, K.F., “Intermediate Heat Transfer”, Marcel Dekker, Inc, 2003. 6. Incropera, F.P., Dewitt, D.P., Bergman, T.L., and Lavine, A.S., “Introduction to Heat Transfer”, 5th ed., 2007 7. Cengel, Y.A., “Heat and Mass Transfer: A Practical Approach”, 3rd ed., 2006. 8. Versteeg, H.K, W. Malalasekera (2007), An Introduction to Computational Fluid Dynamics---The Finite Volume Method. (www.amazon.com), 9. Patankar, S.V. (1980), Numerical Heat Transfer and Fluid Flow. 10. Anderson, D.A., J.C. Tannehill, R.H. Pletcher (1984,1997), Computational Fluid Mechanics and Heat Transfer, 1984 ed. , 1997ed. 11. Cebeci, T., Shao, J.P., Kafyeke, T., and Laurendeau, E., “Computational Fluid Dynamics for Engineers”, 2005. 12. Tu, J., Liu, C., and Yeoh, G.H., “Computational Fluid Dynamics: A Practical Approach”, 2008.

課程諮詢管道 Office Phone: (02)27712171 ext. 3517
Office Location: Rom 516-1, Integrated Technology Complex
Office Hours: 14:00-17:00, Monday & Tuesday

課程對應SDGs指標

備註 ●上課方式：遠距上課

●評量方式：
疫情「一級」學生須到校進行實體測驗
疫情「二級」及「三級」(含)以上警戒，學生在家進行實體測驗
期末報告採書面報告
●補充說明資訊：
For remote class, please download Microsoft Teams and connect to the above website and enter the class group.

教師姓名	施陽正
Email	f10958@ntut.edu.tw
最後更新時間	2021-08-30 16:13:08
課程大綱	This course is suitable for graduate students who have taken engineering mathematics and basic thermofluid courses. The main content of the lecture is the application of Matlab and CFD package software to analyze related issues in the field of energy and thermofluid science, with emphasis on case studies. The course content mainly includes the use of numerical analysis to analyze the boundary layer problems, finite difference method to solve steady-state and transient heat conduction, and two-dimensional forced-driven flow problems. Case studies include the indoor airflow movement, cleanroom airflow distribution, heat exchanger performance analysis, analysis of ice storage system, electronic heat dissipation, and hydrogen energy system, etc.
課程進度	Class Content: 1 (1) Course outline (2) Ch1-Introduction to CFD (3) Ch2-Governing Equations (I) 2 (1) Ch2-Governing Equations (II) (2) Ch3-Types of Governing Equations (3) Ch4-Basics of Finite Difference (4) Ch5-Methods of Solving Sets of Algebraic Equations (I) HW#1 Tut1_Mixing Tee 3 (1) Ch5-Methods of Solving Sets of Algebraic Equations (II) (2) Ch6-Introduction to Finite Volume Method HW#2 Tut2_Mixing Elbow 4 Solving CFD with ANSYS FLUENT (I) Tut5_Indoor airflow 5 (1) Ch7-Cell zones and Boundary Conditions (2) Ch8-Meshing and Postprocessing (3) Ch9-V&V in CFD and Heat Transfer (I) HW#3 Tut4_Turbulent Pipe Flow 6 Ch9-V&V in CFD and Heat Transfer (II) 7 Ch10-Heat Transfer HW#4 Tut3_Laminar Pipe Flow and V&V 8 Solving CFD with ANSYS FLUENT (II) Tut6_Lid-Driven Flow HW#5 Tut10_S2S Radiation Model 9 Quiz 10 Ch11-Turbulence (I) 11 Ch11-Turbulence (II) 12 Solving CFD with ANSYS FLUENT (III) Tut7-Unsteady flow passing a cylinder 13 (1) Ch12-UDF (2) FVM for Diffusion Problems (3) FVM for Convection-Diffusion Problems (I) 14 (1) FVM for Convection-Diffusion Problems (II) (2) Calculation of the Flow Field (3) Algebraic Multigrid Method (AMG) 15 Solving CFD with ANSYS FLUENT (IV) Tut8_Axial fan HW#6 Cavity flow by AMG 16 Oral Presentation (I) HW#7 Tut9_AMG Init 17 Oral Presentation (II) 18 Final Exam & Hand in final report
評量方式與標準	Grading Policy： Homework and Attendance 25%, Quiz 15%, Final Exam 30%, Final Report(30%) Preliminary: With ability to use ANSYS FLUENT
使用教材、參考書目或其他	【遵守智慧財產權觀念，請使用正版教科書，不得使用非法影印教科書】使用外文原文書：是 Textbook： Class note made by instructor Reference book： 1. Fox, R.W., Pritchard, P.J. and McDonald, A.T., “Introduction toFluid Mechanics”, 7th ed., 2010, John Wiley & Sons, Inc. 2. Kundu, P. K. and Cohen, I.M. “Fluid Mechanics”, 2008 3. White, F.M., “Viscous Fluid Flow”, 3rd ed., 2006. 4. JiJi, L.M., “Heat Convection”, Springer, 2006. 5. Wong, K.F., “Intermediate Heat Transfer”, Marcel Dekker, Inc, 2003. 6. Incropera, F.P., Dewitt, D.P., Bergman, T.L., and Lavine, A.S., “Introduction to Heat Transfer”, 5th ed., 2007 7. Cengel, Y.A., “Heat and Mass Transfer: A Practical Approach”, 3rd ed., 2006. 8. Versteeg, H.K, W. Malalasekera (2007), An Introduction to Computational Fluid Dynamics---The Finite Volume Method. (www.amazon.com), 9. Patankar, S.V. (1980), Numerical Heat Transfer and Fluid Flow. 10. Anderson, D.A., J.C. Tannehill, R.H. Pletcher (1984,1997), Computational Fluid Mechanics and Heat Transfer, 1984 ed. , 1997ed. 11. Cebeci, T., Shao, J.P., Kafyeke, T., and Laurendeau, E., “Computational Fluid Dynamics for Engineers”, 2005. 12. Tu, J., Liu, C., and Yeoh, G.H., “Computational Fluid Dynamics: A Practical Approach”, 2008.
課程諮詢管道	Office Phone: (02)27712171 ext. 3517 Office Location: Rom 516-1, Integrated Technology Complex Office Hours: 14:00-17:00, Monday & Tuesday
課程對應SDGs指標
備註	●上課方式：遠距上課 ●評量方式：疫情「一級」學生須到校進行實體測驗疫情「二級」及「三級」(含)以上警戒，學生在家進行實體測驗期末報告採書面報告 ●補充說明資訊： For remote class, please download Microsoft Teams and connect to the above website and enter the class group.