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ank_gl
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cud anyone please gimme some links for tutorials for airflow over 3d geometry in gambit(for meshing) & fluent (for analysis)...
ank_gl said:cud anyone please gimme some links for tutorials for airflow over 3d geometry in gambit(for meshing) & fluent (for analysis)...
ank_gl said:try this, it works
http://courses.cit.cornell.edu/fluent/index.htm
I am reading this book, Finite Element Analysis Theory and Applications with ANSYS - Saeed Moaveni, it is nice. Try to get hold of some similar book from your library
3D analysis in Gambit and Fluent is a computational fluid dynamics (CFD) simulation technique used to analyze and study fluid flow and heat transfer in three-dimensional geometries. It allows scientists and engineers to model and predict the behavior of fluids in complex systems, such as aircrafts, automobiles, and industrial machinery.
3D analysis takes into account the third dimension, which is usually ignored in 2D analysis. This means that 3D analysis provides a more accurate representation of the fluid flow and heat transfer in real-world systems. It also allows for the simulation of more complex geometries and boundary conditions.
The first step is to create a 3D geometry in Gambit, which involves defining the geometry, meshing it, and assigning boundary conditions. The geometry is then imported into Fluent, where the fluid properties, equations to be solved, and solution methods are specified. The simulation is then run and the results are post-processed in Fluent.
3D analysis allows for a more accurate and realistic simulation of fluid flow and heat transfer in complex systems. It also provides a better understanding of flow behavior and can help optimize designs and improve performance. Additionally, Gambit and Fluent have user-friendly interfaces and powerful solvers that make the process of setting up and running simulations relatively easy.
3D analysis in Gambit and Fluent can be used to solve a wide range of problems, including flow over aerodynamic bodies, heat transfer in electronic devices, and combustion in engines. It is also commonly used in industrial applications, such as oil and gas, chemical processing, and aerospace industries. Essentially, any problem involving fluid flow and heat transfer can be solved using 3D analysis in Gambit and Fluent.