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|Title: ||Development status of indigenous computational fluid dynamics software for arbitrary complex geometry|
|Authors: ||Ng, Khai Ching|
Mohd Zambri, Yusoff, Dr.
Talal, Yusaf, Dr.
|Keywords: ||Computational Fluid Dynamics;Coupled solution technique;Finite Volume Method;Indigenous CFD codes;Navier-Stokes Equations|
|Issue Date: ||Dec-2005|
|Publisher: ||The Institution of Engineers, Malaysia|
|Citation: ||The Journal of the Institution of Engineers, Malaysia, vol. 66(4), 2005, pages 15-22|
|Abstract: ||This paper describes the development status of an indigenous Computational Fluid Dynamics (CFD) software (FLOWSIM)
capable of handling complex geometry. It addresses the development of the pre-processor, post-processor as well as the flow
solvers that can handle a wide range of computational meshes. The flow solvers employ the second-order accurate cell vertex
Finite Volume Method for space discretisation and multi-stage Runge-Kutta explicit time integration to solve the unsteady
Reynolds Averaged Navier-Stokes (RANS) equations, where its unstructured counterparts are integrated with the commercial
pre- and post-processor; it is time-effective and the range of simulations that can be attempted is extended towards complex
geometry. Finally, the paper discusses the applications of this newly developed CFD software, together with the verification
of results with predictions from commercial codes as well as experimental data..|
|Description: ||Link to publisher's homepage at http://www.myiem.org.my/|
|Appears in Collections:||IEM Journal|
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