Introduction
Flow between two parallel planes with infinite depth is a classic problem in fluid dynamics. which is widely used in engineering and scientific analysis. Due to its geometric simplicity and specific boundary conditions, this system provides a suitable environment for studying fluid behavior and modeling various phenomena such as heat transfer, boundary layer and flow roughness. Assuming that the plates are continuously moving closer or further away from each other. And one of them moves at a certain speed. The generated flow can appear as a layer or with more complex features such as turbulence.
Analysis of flow between two parallel plates is done by analytical and numerical methods. In numerical methods, applying (CFD) techniques and solving the Navier-Stokes equations can. To simulate the flow behavior and analyze the balance of forces and different parameters. This issue, let’s examine the flow dynamics in different conditions and with changes in parameters such as fluid viscosity, distance between plates and surface velocity.
The aim of this project is the detailed analysis of the flow dynamics between two parallel plates. which can help to understand the methods of mass and energy transfer in real systems. In addition, the results of this study can help designers to optimize industrial and engineering processes by taking advantage of these principles. In the following, using numerical methods and suitable software, we will investigate the characteristics of the flow and the effect of parameter changes.
Conclusion
The purpose of this project is to solve the flow between two parallel planes with infinite depth by coding in Fortran 90. which is by limited volume method and with the help of SIMPLE algorithm and its solution with GAMBIT & FLUENT software. This project has a complete report of the solution process and output results. After preparing this project, the report file, code and Fluent along with their output results will be provided to you.
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