Heat Transfer: Matlab 2D Conduction Question
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1. The problem statement, all variables and given/known data
Having trouble with code as seen by the gaps left where it asks me to add things like the coefficient matrices. Any Numerical Conduction matlab wizzes out there?
A long square bar with cross-sectional dimensions of 30 mm x 30 mm has a specied temperature on each side, The temperatures are:
Tbottom = 100 C
Ttop = 150 C
Tleft = 250 C
Tright = 300 C
Assuming isothermal surfaces, write a software program to solve the heat equation to determine the two-dimensional steady-state spatial temperature distribution within the bar. Your analysis should use a finite difference discretization of the heat equation in the bar to establish a system of equations:
2. Relevant equations
AT = C
Must use Gauss-Seidel Method to solve the system of equations
3. The attempt at a solution
clear all
close all
%Specify grid size
Nx = 10;
Ny = 10;
%Specify boundary conditions
Tbottom = 100
Ttop = 150
Tleft = 250
Tright = 300
% initialize coefficient matrix and constant vector with zeros
A = zeros(Nx*Ny);
C = zeros(Nx*Ny,1);
% initial 'guess' for temperature distribution
T(1:Nx*Ny,1) = 100;
% Build coefficient matrix and constant vector
% inner nodes
for n = 2:(Ny-1)
for m = 2:(Nx-1)
i = (n-1)*Nx + m;
A(i,i+Nx) = 1;
A(i,i-Nx) = 1;
A(i,i+1) = 1;
A(i,i-1) = 1;
A(i,i) = -4;
end
end
% Edge nodes
% bottom
for m = 2:(Nx-1)
%n = 1
i = m;
A(i,i+Nx) = 1;
A(i,i+1) = 1;
A(i,i-1) = 1;
A(i,i) = -4;
C(i) = -Tbottom;
end
%top:
for m = 2:(Nx-1)
% n = Ny
i = (Ny-1)*Nx + m;
A(i,i-Nx) = 1;
A(i,i+1) = .5;
A(i,i-1) = .5;
A(i,i) = -5;
C(i) = -Ttop;
end
%left:
for n=2:(Ny-1)
%m = 1
i = (n-1)*Nx + 1;
A(i,i+Nx) = .5;
A(i,i+1) = 1;
A(i,i-Nx) = .5;
A(i,i) = -2;
end
%right:
for n=2:(Ny-1)
%m = Nx
i = (n-1)*Nx + Nx;
A(i,i+Nx) = 1;
A(i,i-1) = 1;
A(i,i-Nx) = 1;
A(i,i) = -4;
C(i) = -Tright;
DEFINE COEFFICIENT MATRIX AND CONSTANT VECTOR ELEMENTS HERE
end
% Corners
%bottom left (i=1):
i=1
A(i,Nx+i) = 1;
A(i,2) = 1;
A(i,1) = -4;
C(i) = -(Tbottom + Tleft);
%bottom right:
i = Nx
A(i,Nx+i) = 1;
A(i,2) = 1;
A(i,1) = -4;
C(Nx) = -(Tbottom + Tright);
%top left:
i = (Ny-1)*Nx + 1;
A(i,i+1) = .5
A(i,i) =
%top right:
i = Nx*Ny;
DEFINE COEFFICIENT MATRIX AND CONSTANT VECTOR ELEMENTS HERE
%Solve using Gauss-Seidel
residual = 100;
iterations = 0;
while (residual > 0.0001) % The residual criterion is 0.0001 in this example
7% You can test different values
iterations = iterations+1
%Transfer the previously computed temperatures to an array Told
Told = T;
%Update estimate of the temperature distribution
INSERT GAUSS-SEIDEL ITERATION HERE
%compute residual
deltaT = abs(T - Told);
residual = max(deltaT);
end
iterations % report the number of iterations that were executed
%Now transform T into 2-D network so it can be plotted.
delta_x = 0.03/(Nx+1)
delta_y = 0.03/(Ny+1)
for n=1:Ny
for m=1:Nx
i = (n-1)*Nx + m;
T2d(m,n) = T(i);
x(m) = m*delta_x;
y(n) = n*delta_y;
end
end
T2d
surf(x,y,T2d)
figure
contour(x,y,T2d)
10 Comments
Jonathan Ayala
on 14 Nov 2019
Hello, any luck with modifying the code with values for K and h? I am working on a similar problem, Thanks.
ARJUN MODIA
on 23 Jun 2020
If we work on steady-state problem then the values of h & k will not affect your results. @ Jonathan and @ Bimal.
Answers (3)
Ahmed Hakim
on 17 Nov 2012
Very nice Code
I would like to use SOR method for finding the optimum omega...can u help me?
thanks
0 Comments
ashwath suresh
on 16 Feb 2015
Hi could you please explain how codes for inner nodes and edge nodes are given? why is the value for A(i,i)=-4
0 Comments
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