Advanced Fluid Dynamics

Description

This course is about Advanced Fluid Dynamics. Topics start from fundamentals to develop therngeneral theory. From this, it proceeds to a study of inviscid flow in two and three dimensions,rnviscous flow including both viscous and thermal boundary layer theory, flow stability, turbulence,rnand a succinct introduction to computational fluid dynamics. It offers exceptional pedagogy, forrnboth class-room use and self-instruction, including many worked-out examples, end-of-chapterrnproblems, and actual computer programs that can be used to reinforce theory with real-worldrnapplications. Numerical methods are introduced throughout the text where appropriate. The textrnintroduces three-dimensional fluid mechanics to the engineering student, using classical theoryrnaccompanied by modern computational methods. Unfamiliar mathematics is explained in the textrnand in a mathematical appendix. The approach to the individual aspects covered are embeddedrnin the real world, showing the student how the idealizations learned can be put to use for solvingrncomplex engineering problems

Program

Doctor of Philosophy (PhD) in Mechanical Engineering

Objectives

• Presenting recent developments in the area of Fluid Dynamics.rnIntroduces students to inviscid and viscous flows.rnIntroduces students to flow stability.rnOutlines and mentions turbulence and introduction to computational fluid dynamics.