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

112-1 321139 高等流體力學 1 3.0 3 ★ 林侑民能源所
能源與車輛外生專班 35 2 能源所和能源與車輛外生班合開

學年期	課號	課程名稱	階段	學分	時數	修	教師	班級	人	撤	備註
112-1	321139	高等流體力學	1	3.0	3	★	林侑民	能源所能源與車輛外生專班	35	2	能源所和能源與車輛外生班合開

教學大綱與進度：

教師姓名林侑民

Email Oaz@ntut.edu.tw

最後更新時間 2023-06-12 09:38:10

課程大綱本課程為研究所熱流科學基礎課程之一，內容主要包括質量、動量與能量守恆方程式的推導，以及它們的解析與近似解，應用範圍包含非旋轉流、低雷諾數流以及高雷諾數(邊界層)流等等。 This course is one of the fundamental courses in the thermofluid sciences for graduate students. Based upon the concept of conservation, the equations of mass, momentum, and energy will be derived. This course will deal with solutions of these equations, both exact and approximate. The application of solutions includes irrotational flow, low Reynolds number flow, and high Reynolds number (boundary layer) flow, etc.

課程進度 Week 1-Conservation equations for viscous fluids. Week 2-Boundary layer theory. Week 3-Boundary layer concept and Laminar boundary layer equations. Week 4 to week 6-Navier-Stokes equations. Week 7-Constitutive relations and the Navier-Stokes equation for Newtonian fluids. Week 8-Analytical solutions of the transient and steady Navier-Stokes equations for incompressible viscous flows. Week 9-Von Karman momentum integral equation. Week 10-Theory of stability of laminar flows. Week 11-Introduction to turbulent flow. Week 12-Stability and transition to turbulence. Week 13-Derivation of RANS equations; turbulent shear flows. Week 14-Swirling flow. Week 15-Reynolds transport theorem. Week 16-Compressible Flows. Week 17 and week 18-Advanced flow measurements.

評量方式與標準 Homework 30% Class participation 10% Presentation 10% Midterm exam 20% Final exam 30% NOTE：Exams can open textbooks

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
-Advanced Fluid Mechanics, W. P. Graebel, 2007. -Boundary Layer Theory, H. Schlichting, 2016. -White, F.M. Viscous Fluid Flow, McGraw Hill, 1991. -Advanced methods for practical applications in fluid mechanics, Steven Jones, 2012.

課程諮詢管道 Oaz@ntut.edu.tw
Omid.alizargar@gmail.com

課程對應SDGs指標

備註
Microsoft Team
google meeting

教師姓名	林侑民
Email	Oaz@ntut.edu.tw
最後更新時間	2023-06-12 09:38:10
課程大綱	本課程為研究所熱流科學基礎課程之一，內容主要包括質量、動量與能量守恆方程式的推導，以及它們的解析與近似解，應用範圍包含非旋轉流、低雷諾數流以及高雷諾數(邊界層)流等等。 This course is one of the fundamental courses in the thermofluid sciences for graduate students. Based upon the concept of conservation, the equations of mass, momentum, and energy will be derived. This course will deal with solutions of these equations, both exact and approximate. The application of solutions includes irrotational flow, low Reynolds number flow, and high Reynolds number (boundary layer) flow, etc.
課程進度	Week 1-Conservation equations for viscous fluids. Week 2-Boundary layer theory. Week 3-Boundary layer concept and Laminar boundary layer equations. Week 4 to week 6-Navier-Stokes equations. Week 7-Constitutive relations and the Navier-Stokes equation for Newtonian fluids. Week 8-Analytical solutions of the transient and steady Navier-Stokes equations for incompressible viscous flows. Week 9-Von Karman momentum integral equation. Week 10-Theory of stability of laminar flows. Week 11-Introduction to turbulent flow. Week 12-Stability and transition to turbulence. Week 13-Derivation of RANS equations; turbulent shear flows. Week 14-Swirling flow. Week 15-Reynolds transport theorem. Week 16-Compressible Flows. Week 17 and week 18-Advanced flow measurements.
評量方式與標準	Homework 30% Class participation 10% Presentation 10% Midterm exam 20% Final exam 30% NOTE：Exams can open textbooks
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 -Advanced Fluid Mechanics, W. P. Graebel, 2007. -Boundary Layer Theory, H. Schlichting, 2016. -White, F.M. Viscous Fluid Flow, McGraw Hill, 1991. -Advanced methods for practical applications in fluid mechanics, Steven Jones, 2012.
課程諮詢管道	Oaz@ntut.edu.tw Omid.alizargar@gmail.com
課程對應SDGs指標
備註	Microsoft Team google meeting