Supercomputing |
Advanced Topics in Computational Fluid Dynamics (CFD)For current training offerings and registration information please visit https://armstrong.osc.edu/events/upcoming.php DescriptionThis two-day short course will introduce a variety of model equations of the type which frequently arise in fluid dynamics research and applications, and present a selection of methods for their numerical solution. Topics will include wave-type equations, the heat equation, Laplace/Poisson equations and reduced forms of the Navier-Stokes equations. The importance of the treatment of boundary conditions will also be discussed. Practical example problems will be incorporated within the framework of the course as time permits. PrerequisitesThe course is meant to build upon the workshop, Introduction to Computational Fluid Dynamics, presented by the Ohio Supercomputer Center, and it will be expected that audience members would have completed that course or its equivalent. An introductory, undergraduate, course in fluid mechanics as well as working knowledge of engineering mathematics, including partial differential equations, would be helpful in understanding the material to be presented. Target AudienceStudents and practicing engineers who wish to be introduced to the application of computational methods for the solution of specific classes of problems arising in fluid dynamics. It is expected that the material presented will afford participants a good general understanding of the concepts involved and give them the background required to pursue further work and study, either on their own or in more traditional university courses. Method of DeliveryLecture with hands-on exercises Handouts
|
