SOLIDWORKS Flow Simulation - Meshing Tips for Thermal Analysis
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- Опубликовано: 15 июл 2024
- See more at: www.goengineer.com/products/fl...
Learn how to improve the accuracy of your thermal analysis with better meshing in SOLIDWORKS Flow Simulation. This webinar covers analyzing the thermal resistance of a heat sink, verifying the accuracy of the analysis through mesh refinement and finding a geometric configuration for optimum thermal performance. Webinar presented by Arun Thiraviam of GoEngineer.
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GoEngineer delivers software, technology and expertise that enable companies to unlock innovation and deliver better products faster. With more than 30 years experience and thousands of customers in high-tech, medical, machine design, energy and other industries, GoEngineer provides best-in-class design solutions from SOLIDWORKS, Stratasys, CAMWorks and Agile PLM.
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The importance of meshing :) Thank you Mr Arun.
Thank you for stopping by.
Good video of meshing in solidwork flow simulation, thanks.
fantastic video and well explained. thank you
Thank you, Matthew. We appreciate your comment.
could you please do some tutorials for Meshing in Ansys fluent ?
zawillious, Thank you for your suggestion, we have added this recommendation to our list of videos to create. Thank you for watching.
Is Cartesian based meshes are independent of the model geometry. If yes or no please justify sir
Once again thanking your channel 🙏🙏🙏🙏🙏🙏🙏
Cartesian meshes in this software is generated from the model geometry. The software runs Boolean operations to determine the internal and external fluid volumes which are then captured by the grid. In that sense, the mesh is dependent on model geometry, but these aren’t body fitted meshes. The software uses algorithms to resolve non-orthogonal geometry. Thank you.
Is it possible to know for a particular refinement level in global mesh settings, what element size we will get. Like for the given domain, refinement level 1 corresponds to 'x' mm element, level 2 corresponds to 'y' mm. Like that....
The cell sizes from the refinement levels are relative to the Global Initial Mesh Size. For a certain initial mesh size, each level of refinement will yield 8 additional cells in the space occupied by each initial cell. So level 1 will yield 8 cells, level 2 will yield 64 cells and so on. This is described at 8:00 in the video. Thank you.
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Thanks for the reply GoEngineer. That I understood. But if you take any CFD problem, they will talk y+ and y* values which corresponds to a specific first cell height. So will it be possible to give the same kind of input we calculated or not.
I have seen equidistant mesh refinement option in FloEFD which lets us to give 1st, 2nd and 3rd layers height. Is it related to what I mean? If so please confirm.
Thanks again... 🙂
Mr. Arun:
I developed a heatsink similar with 4 bars of copper and blades, but using two funs... using the local mesh, with 4 channels and 4 level mesh and advanced refinement and the cpu time is a lot, around 40minutes in finish just the mesh. how many late in charge your mesh in your heatsink?
it has 52 plaques, and the minimus gaps is 1.7mm. Every plaque is 0.3mm of width and the computation domain has a symetric axe. and my computer is a i7 intel of 3,4GHz, memory card 2Gb, 24Gb 1300 Ghz and a solid state disk
your video is really interisting, thanks a lot.
Mechanical Engineering.
How can i get that validation.pdf ?
This sounds like a challenging question. For assistance, please contact our tech support team at goengineer.com/contact