Diffusion equation in Cartesian and Cylindrical coordinates

7 vues (au cours des 30 derniers jours)
Neda
Neda le 18 Déc 2024
Modifié(e) : Torsten le 20 Déc 2024
Hi Matlab Team,
I have written the code for the diffusion equation in Cartesian and Cylindrical coordinates using pdepe. However, in cylindrical coordinate, the graph is to the left and it is not symmetric. I think it is becasue of the geometry of cylindrical coordinate, but how can I fixed it to have a similar graph from cartesian and cylindrical code?
Thanks
  2 commentaires
Torsten
Torsten le 18 Déc 2024
Your description is far too vague to be able to give advice.
We need your code to reproduce what you are talking about.
Neda
Neda le 19 Déc 2024
@Torsten
Thank you !! Here is my code: when I change m from 0 to 1, the solution changes.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
m = 0;
x = linspace(0,1,201);
t = linspace(0,5,101);
sol = pdepe(m,@diffusion,@diffic,@diffbc,x,t);
u = sol;
surf(x,t,u)
%--------------------------------------------------------------------------
figure
for t_num = 1:length(t)
%----------------------------------------------------------------------
% Plot figure
hold off
plot(x, sol(t_num,:))
hold on
v = axis;
axis([x(1) x(end) 0 1])
getframe;
end
%--------------------------------------------------------------------------
% PDE function
function [c,f,s] = diffusion(x,t,u,dudx)
D = 0.01;
mu = 0.1;
K = 20;
c = 1;
f = (D)*dudx ;
s = 0;
end
% initial condition
function u0 = diffic(x)
% u0 = 0;
u0 = 0.01 + 0.99*(0.4 <= x)*(x <= 0.6);
end
% local function 3
function [pl,ql,pr,qr] = diffbc(xl,ul,xr,ur,t)
F = 0.0005;
pl = F; %
ql = 1; %
pr = 0; %
qr = 1; %
end

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Réponses (1)

Torsten
Torsten le 20 Déc 2024
Modifié(e) : Torsten le 20 Déc 2024
If m = 1, the condition at r = 0 set by "pdepe" is pl = 0, ql = 1. All other conditions make no sense mathematically because they would cause an unbounded solution for u at r = 0. So your setting pl = F will be internally overwritten by the solver.
Further, I don't understand why you are suprised that the solution changes when you change m from 0 to 1. Of course it will change because diffusion in a cylinder in r-direction differs from diffusion in a plate. Since the areas through which diffusion takes place are smaller in the region from 0 to 0.4 than from 0.6 to 1, concentration will increase faster in the region from 0 to 0.4 than from 0.6 to 1 - the profiles loose their symmetry.

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