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Solving 2D Heat Conduction using Matlab

In this project, the 2D conduction equation was solved for both steady state and transient cases using Finite Difference Method. For steady state analysis, comparison of Jacobi, Gauss-Seidel and Successive Over-Relaxation methods was done to study the convergence speed. The transient case was solved using both implicit…

Abdul Rehman Sadiq K
updated on 15 Feb 2020

Read more Projects by Abdul Rehman Sadiq K (20)

a new title

Objective:

Interpolation schemes in FVM:The flux terms in FVM are calculated using the values at the cell centres. For example, heat flux is calculated using temperature values at cell centres (E,P and W). But the flux is obtained when we multiply this by thermal diffusivity. Thermal diffusivity depends on temperature and the value…

15 Feb 2020 02:26 AM IST

RANS

Objective:

Let us consider the Navier Stokes equation for a 2D, incompressible flow. The continuity equation for this can be written as below. $\frac{\partial u}{\partial x} + \frac{\partial v}{\partial y} = 0 \to E q n (1)$ $(delu)/(delx)+(delv)/(dely)=0rightarrowEqn(1)$ Applying Reynold's decomposition by substituting $u = (¯ u + u') and v = (¯ v + v')$ $u=(baru+u')and v=(barv+v')$ , Eqn(1) becomes $\frac{\partial ¯ u}{\partial x} + \frac{\partial u'}{\partial x} + \frac{\partial ¯ v}{\partial y} + \frac{\partial v'}{\partial y} = 0 \to E q n (2)$ $(delbaru)/(delx)+(delu')/(delx)+(delbarv)/(dely)+(delv')/(dely)=0rightarrowEqn(2)$ …

15 Feb 2020 02:26 AM IST

Prandtl-Meyer Expansion Shock problem using Converge

Objective:

In this project the Prandtl-Meyer expansion fan was simulated to study compressible flow. Air flowing with a velocity of 680m/s (M=2) was simulated over a wedge to study the expansion. Shocks are created when an object moves at a speed greater than that of sound in that medium. Shock are sudden change in the physical properties…

15 Feb 2020 02:26 AM IST

Effects of Air preheating on Combustion

Objective:

Introduction

15 Feb 2020 02:26 AM IST

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