> EME3004 Heat transfer
This lecture presents an introductory treatment of engineering heat transfer. Background in physics, thermodynamics, fluid mechanics and ordinary differential equation is assumed. Emphasis is placed on a physical understanding of the process by which heat is transferred and on how to make appropriate assumptions and simplification in real situation to obtain an engineering answer.
> EME2008 Fluid Mechanics
Basic principles of fluid mechanics : basic concepts, properties of fluid, streamlines and pathlines, fluid statics, control volume approach, continuity equation, momentum equation, energy equation, Bernoulli's equation, dimensional analysis and similitude, pipe flows, and utility of the fundamental equations in describing various physical situations.
> EME5301 Advanced Heat Transfer
This course is to provide a chance for graduate students not only to study fundamental theory on some topics, excluded in undergraduate course, but also to get information of recent findings over the following subjects; two and three-dimensional steady state conduction, transient conduction, laminar and turbulent boundary layers in forced convection, natural convection, boiling and condensation, radiation of black body and gray body, solar radiation.