Computational Fluid Dynamics Project

Note: To do this project, one must should have CFD ( computational Fluid Dynamics) knowledge. Specially looking the project either of the above computer language. The purpose of this assignment is to write a complete set of code: [login to view URL] input [login to view URL] declaration and allocation [login to view URL] [login to view URL] integration loop [login to view URL] calculation [login to view URL] conditions (placeholder) [login to view URL] I expect to have all parts of the code functional. Grids have been posted in the Files section and details of the Final Project were discussed in an earlier lecture. The meshes have been posted in the Files section, Final Project. There are 5 files: cylinder-R1.g = unadapted cylinder cylinder-R1-adapt.g = shock-aligned cylinder ramp-10deg.g = unadapted ramp ramp-10deg-adapt.g = shock-aligned ramp ramp-10deg-adapt2.g = shock-aligned ramp with local mesh refinement around the shock You are only required to show results from the shock-aligned meshes, i.e. the files ending in *-adapt.g. The format is the same as used for TSDE, so the reader from that problem applies here as well. Only the dimensions have changed. Note that these simulations only take a few seconds on a single processor. Once your CFD code is working, it is trivial to run all of the cases. It is a very valuable exercise to see the effects of the underlying mesh on the computed results.