Dive deep into Fluid Mechanics with over 29 hours of superior engineering insights and hands-on CFD purposes.
What you’ll be taught
Present an introductory overview of Fluid Mechanics tailor-made to newbie learners, protecting elementary ideas and fascinating course content material.
Current a complete derivation and detailed rationalization of the continuity equation, accompanied by illustrative examples and numerical problem-solving.
Achieve a radical understanding of the momentum equation, each in its basic kind and in its differential kind, together with sensible purposes.
Discover the Navier-Stokes Equation, comprehending its significance and wide-ranging purposes in fluid dynamics.
Purchase a complete understanding of the Reynolds Transport Theorem, together with its derivation and sensible implications.
Develop a strong grasp of linear and angular momentum equations and their relevance in fluid mechanics.
Dive into an in depth examination of the kinematics of varied circulate varieties, encompassing a complete exploration of their traits.
Discover the ideas of Potential Circulation and delve into the idea of superposition, together with in-depth discussions of its three varieties.
Achieve insights into Turbo Machines, together with the applying of Euler’s Equation, evaluation of blade angles, and evaluating efficiency elements.
Receive in-depth details about generators, together with their operational traits and efficiency analysis.
Familiarize your self with the core ideas of Boundary Layer, together with order evaluation over flat plates, turbulent circulate over flat plates, the Blasius resolution.
Develop an understanding of Exterior Circulation ideas, specializing in subjects similar to Drag Coefficient and its significance in automobile aerodynamics.
Discover the basic ideas of Airfoil and delve into an evaluation of its efficiency traits.
Achieve a complete understanding of superior ideas in Computational Fluid Dynamics (CFD), together with its purposes throughout varied industries and fields.
Why take this course?
你提供的内容是关于流体力学(Fluid Mechanics)的课程大纲,特别是边界层(Boundary Layer)、外流(Exterior Circulation)、阻力与升力(Drag and Carry)以及计算流体动力学(Computational Fluid Dynamics, CFD)的教学内容。这个课程涵盖了从基础理论到实际应用的多个方面,包括:
- 边界层(Boundary Layer):
- 控制体分析
- Von Kármán解决方案和积分方程
- 薄层阻力系数的近似解法
- 薄层的局部和平均阻力系数
- 阻力与升力(Drag and Carry):
- 对于不同形状的身体产生的结果力的分析
- 阻力和升力力的概念
- 阻力系数,包括薄层阻力系数、高 Reynolds数流和混合阻力层的阻力系数
- 外流(Exterior Circulation):
- 对于平板和圆柱形状的流体分析
- 低和高 Reynolds数流的特性
- 开放通道流的简介
- 流体力学中的阻力、升力和流动特征
- 计算流体动力学(CFD):
- CFD的概念和作用范围
- 数值方法,尤其是有限差分法
- CFD问题的解决步骤
- 几何建模和网格生成
- 预求解、解析处理和后处理(特别是在ANSYS-CFX中)
这个课程大纲可以帮助学生理解流体力学的基本概念,并通过实例和应用来深化理解。此外,通过引入计算流体动力学的工具和技术,学生可以将理论知识应用于现实世界的问题中,如汽车设计、飞机尖端形状优化、风能发电等。
在实际的教学过程中,这些话题可能会通过课堂讲解、示例问题、实验室练习和计算机软件操作(如ANSYS-CFX)来进行。这样的多元化的教学方法有助于学生从不同角度理解流体力学的概念,并能够将所学知识应用到实际工程设计和分析中。
The post Superior Fluid Mechanics & Computational Fluid Dynamics appeared first on destinforeverything.com.
Please Wait 10 Sec After Clicking the "Enroll For Free" button.