A unique combination of theory and practical sessions on the fundamentals and applications of Computational Fluid Dynamics,  which  would  enable  design  engineers  to effectively deal with various  fluid  flow problems.

Civil and structural engineers will learn the theory, applications and best practices of offshore structural engineering.

Modeling of Ground water  flow  is a special application of the general science of Computational Fluid Dynamics (CFD). It is  now  a  widely  applied  technology  for  groundwater resource management and pollution related problems. The appropriate use of these tools requires an understanding of the  underlying  physics,  mathematics  and  numerical concepts and methods. This course is designed to create the  necessary  understanding  of  CFD  in  the  context  of ground water  flow modeling.

A unique  course  designed  to  bridge  the  gap  between theoretical  finite  element  knowledge  and  its  industrial applications  by  providing  valuable  insights into the relationship  between  the  physical  data  and  the  finite element model.

The course is intended to provide engineers with the theory, analysis and design considerations in dealing with composite structural components in the form of laminated beam, plate or shell structures made of fiber-reinforced composite materials.

Nuclear and Hazardous waste is an increasing bye-product of today's industrial society. Much of this waste finds its way to our ground water resource either by design or by neglect. Some of  this waste can stay active  for a very  long  time, even upto hundreds of  thousands of  years. To understand  the impact of  such waste on the ground water  resource  is a pressing environmental concern. Since it is not possible to design  and  test  systems  that  can  be  effective  over thousands of years, the only alternative is to explore the impact of such waste by CFD simulation and modeling.