All Courses
All Courses
Aim:- The work is focused on simulating fluid flow through an elbow channel duct containing a static throttle plate. Newtonian fluid, the air is considered as the working fluid for this project. The geometry will be exported as an STL file & modified using the various geometric editing tools available in Converge…
Pratik Ghosh
updated on 26 May 2020
Leave a comment
Thanks for choosing to leave a comment. Please keep in mind that all the comments are moderated as per our comment policy, and your email will not be published for privacy reasons. Please leave a personal & meaningful conversation.
Other comments...
Visualize 2D Flow Simulation Through A Backward Facing Step For 3 Distinct Mesh Grid Size Using openFOAM & ParaView
Abstract:- The work is focused on simulating fluid flow through a backward-facing step channel that would be subjected to a sudden increase in the cross-sectional area, this would result in flow separation & reattachment zones. The geometry will be designed by creating vertices & then joining them to form blocks.…
19 Jan 2021 06:26 AM IST
Week 12 - Symmetry vs Wedge vs HP equation
Objective:- The work is focused on performing a CFD simulation for a flow through a cylindrical pipe with reference to Hagen Poiseuille's principle that refers to the laminar flow formation inside a smooth cylindrical tube. Since the computation will be carried out on a laptop, we will not be able to consider the entire…
19 Jan 2021 06:26 AM IST
Writing A MATLAB/Octave Code To Perform A 1D Super-Sonic Nozzle Flow Simulation Using Macormack Method.
Abstract:- The work is focused on writing a MATLAB/Octave code to simulate the isentropic flow through a quasi 1D supersonic nozzle using both the conservation and non-conservation forms of the governing equations and solving them using MacCormack's technique and compare their solutions by performing a grid dependency…
19 Jan 2021 06:24 AM IST
Writing A MATLAB/Octave Program To Solve the 2D Heat Conduction Equation For Both Steady & Transient State Using Jacobi, Gauss-Seidel & Successive Over Relaxation (SOR) Schemes.
Problem Statement:- 1. Steady-state analysis & Transient State Analysis Solve the 2D heat conduction equation by using the point iterative techniques that were taught in the class. The Boundary conditions for the problem are as follows; Top Boundary = 600 K Bottom Boundary = 900 K Left Boundary = 400 K Right Boundary…
19 Jan 2021 06:23 AM IST
Related Courses