Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh
Nowadays, in the field of computational fluid dynamics simulation, the accuracy of the obtained results is a questionable factor with respect to its validation from the experimental data. In terms of CFD simulation, numerous parameters are to be adjusted for the geometry which should be in line with...
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Universiti Sains Malaysia
2019
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my.usm.eprints.58688 http://eprints.usm.my/58688/ Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh Roslan, Nur Khaleda T Technology Nowadays, in the field of computational fluid dynamics simulation, the accuracy of the obtained results is a questionable factor with respect to its validation from the experimental data. In terms of CFD simulation, numerous parameters are to be adjusted for the geometry which should be in line with the experimental parameters. However, for CFD, one of the important aspects is the analysis of results at different segment of the geometry and in order to get the precise visualization for such segments, high degree of meshing is required. There is commercially available software which is used to perform meshing but in all of them the meshing is performed manually and is not automated. Moreover, it becomes quite tedious to attain high degree of mesh quality using manual meshing. For proposed study, in order to determine the accuracy of the CFD results, a three-dimensional chamber model is to be analysed for a compressible gas flow from converging-diverging nozzle using OpenFOAM blockMesh and snappyHexMesh utility. blockmesh and snappyHexMesh are the meshing tools that are used in OpenFOAM software and the mesh in OpenFOAM is generated from the specified dictionary file of these meshing utility tools. In order to enhance the accuracy of the results, different stages of blockMesh and stereolithography (STL) file are created with different size of grid to study and compare the flow behaviour inside the nozzle. It was also observed that the obtained results were in agreement with the experimental results. In summary, OpenFOAM may be suitable for running CFD simulations in place of the commercial code like Fluent due to its advanced meshing utility. Nonetheless, the OpenFOAM also does not require any license if compared to other software like an ANSYS. Additionally, the simulations in OpenFOAM are typically configured by using text files which allows to readily link the simulation set up to third party applications. Universiti Sains Malaysia 2019-06-01 Monograph NonPeerReviewed application/pdf en http://eprints.usm.my/58688/1/Setting%20Up%20Openfoam%20To%20Model%20Gas%20Flow%20Through%20A%20Nozzle%20Into%20A%20Vaccuum%20Using%20Snappyhexmesh.pdf Roslan, Nur Khaleda (2019) Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh. Project Report. Universiti Sains Malaysia, Pusat Pengajian Kejuruteraan Aeroangkasa. (Submitted) |
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T Technology Roslan, Nur Khaleda Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
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Nowadays, in the field of computational fluid dynamics simulation, the accuracy of the obtained results is a questionable factor with respect to its validation from the experimental data. In terms of CFD simulation, numerous parameters are to be adjusted for the geometry which should be in line with the experimental parameters. However, for CFD, one of the important aspects is the analysis of results at different segment of the geometry and in order to get the precise visualization for such segments, high degree of meshing is required. There is commercially available software which is used to perform meshing but in all of them the meshing is performed manually and is not automated. Moreover, it becomes quite tedious to attain high degree of mesh quality using manual meshing.
For proposed study, in order to determine the accuracy of the CFD results, a three-dimensional chamber model is to be analysed for a compressible gas flow from converging-diverging nozzle using OpenFOAM blockMesh and snappyHexMesh utility. blockmesh and snappyHexMesh are the meshing tools that are used in OpenFOAM software and the mesh in OpenFOAM is generated from the specified dictionary file of these meshing utility tools. In order to enhance the accuracy of the results, different stages of blockMesh and stereolithography (STL) file are created with different size of grid to study and compare the flow behaviour inside the nozzle. It was also observed that the obtained results were in agreement with the experimental results.
In summary, OpenFOAM may be suitable for running CFD simulations in place of the commercial code like Fluent due to its advanced meshing utility. Nonetheless, the OpenFOAM also does not require any license if compared to other software like an ANSYS. Additionally, the simulations in OpenFOAM are typically configured by using text files which allows to readily link the simulation set up to third party applications. |
| format |
Monograph |
| author |
Roslan, Nur Khaleda |
| author_facet |
Roslan, Nur Khaleda |
| author_sort |
Roslan, Nur Khaleda |
| title |
Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
| title_short |
Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
| title_full |
Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
| title_fullStr |
Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
| title_full_unstemmed |
Setting Up Openfoam To Model Gas Flow Through A Nozzle Into A Vaccuum Using Snappyhexmesh |
| title_sort |
setting up openfoam to model gas flow through a nozzle into a vaccuum using snappyhexmesh |
| publisher |
Universiti Sains Malaysia |
| publishDate |
2019 |
| url |
http://eprints.usm.my/58688/1/Setting%20Up%20Openfoam%20To%20Model%20Gas%20Flow%20Through%20A%20Nozzle%20Into%20A%20Vaccuum%20Using%20Snappyhexmesh.pdf http://eprints.usm.my/58688/ |
| _version_ |
1768007917725810688 |
| score |
13.244367 |