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課程資訊

課程名稱	計算流體力學 Computational Fluid Mechanics
開課學期	105-2
授課對象	工學院機械工程學研究所
授課教師	潘國隆
課號	ME5141
課程識別碼	522EU2960
班次
學分	3.0
全/半年	半年
必/選修	選修
上課時間	星期二3,4,5(10:20~13:10)
上課地點	工綜209
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/1052ME5141_CFD
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課程概述	This is an introductory course to computational methods for fluid dynamics. Following a preface to numerical simulation and a review of the governing equations for mass, momentum, and energy, the structure and mathematical behaviors of partial differential equations will be discussed, which are classified as hyperbolic, parabolic, and elliptic types. A discretization scheme to approximate the mathematical models, the finite-difference method, is described along with the analyses for the resulting errors and stability, followed by strategies of allocation and transformation of grids. Some simple CFD techniques will then be illustrated, in terms of various schemes suited for different categories of PDE’s. Various methods of discretization other than the finite-difference approach, such as finite-volume method and finite-element method, shall be briefly mentioned if time is available.
課程目標	Part I: Fundamentals of mathematical and physical models 1.Philosophy of computational fluid dynamics(83dc) 2.The governing equations for fluid dynamics(83dc) 3.Mathematical behavior of partial differential equations Part II: Numerical approaches 4.Basic aspects of discretization 5.Grids with appropriate transformations 6.Numerical methods for hyperbolic PDE: wave equation 7.Numerical methods for parabolic PDE: heat equation(83dc) 8.Numerical methods for elliptic PDE: Laplace’s equations
課程要求
預期每週課後學習時數
Office Hours
指定閱讀
參考書目
評量方式 (僅供參考)

課程進度

週次	日期	單元主題
Week 1	02/21	1. Philosophy of computational fluid dynamics; 2. The governing equations for fluid dynamics
Week 2	02/28	National holiday (school off)
Week 3	03/07	2. The governing equations for fluid dynamics
Week 4	03/14	class canceled and made up on 06/27
Week 5	03/21	Topic 2
Week 6	03/28	3. Mathematical behavior of partial differential equations
Week 7	04/04	National holiday (spring break; school off)
Week 8	04/11	4. Basic aspects of discretization
Week 9	04/18	Topic 4; Midterm project
Week 10	04/25	5. Grids with appropriate transformations; 6. Beginning with some simple CFD techniques
Week 11	05/02	Topic 6; 7. Numerical methods for hyperbolic PDE: wave equation
Week 12	05/09	Topic 7
Week 13	05/16	8. Numerical methods for parabolic PDE: heat equation
Week 14	05/23	9. Numerical methods for elliptic PDE: Laplace’s equations
Week 15	05/30	National holiday (school off)
Week 16	06/06	Topic 9
Week 17	06/13	10. Pressure correction approaches
Week 18	06/20	Topic 10; 11. Introduction to finite volume methods
Week 19	06/27	Introduction to CFD software (ANSYS-Fluent) and operation; Final project