Pdepe: Spatial discretization has failed. Discretization supports only parabolic and elliptic equations, with flux term involving spatial derivative.

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Mallikarjuna M
Mallikarjuna M el 8 de Feb. de 2022
Comentada: Mallikarjuna M el 9 de Feb. de 2022
i am trying to solve the diffusion reaction using pdepe but it is showing an error like
Spatial discretization has failed. Discretization supports only parabolic and elliptic equations, with flux term involving spatial derivative.
any problem with the boundary. x(0)=1,x'(1)=0, y(1)=1,x'(0)=0
function steady
m = 0;
x = linspace(0,1);
t = linspace(0,1000);
sol = pdepe(m,@pdex4pde,@pdex4ic,@pdex4bc,x,t);
u1 = sol(:,:,1);
%u2= sol(:,:,2);
%figure
plot(x, u1(end,:),'b')
hold on
%title('u1(x, t)')
%xlabel('Distance x')
%ylabel('u1(x,t)')
%figure
%plot(x, u2(end,:),'b')
%title('u2(x, t)')
%figure
% --------------------------------------------------------------
function [c,f,s] = pdex4pde(~,~,u,DuDx)
al=0.1;phi=0.0009;
c = [1;1];
f = [1;1].* DuDx;
F1=-9.*phi.^2.*(u(1)./1+u(1)+u(2));
F2=-9.*al.^2.*(u(2)./1+u(1)+u(2));
s = [F1;F2];
% --------------------------------------------------------------
function u0 = pdex4ic(~)
u0 = [0; 1];
% --------------------------------------------------------------
function [pl,ql,pr,qr] = pdex4bc(~,~,ul,ur,~)
%bi=10.0;
pl = [ul(1)-1;0];
ql = [0;1];
pr = [0;ur(2)-1];
qr = [1;0];
%qr = [0; bi*(1-ur(2))];

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Respuesta aceptada

Bill Greene
Bill Greene el 8 de Feb. de 2022
Your definition of the input arguments for the boundary condition function is incorrect.
Replace,
function [pl,ql,pr,qr] = pdex4bc(~,~,ul,ur,~)
with
function [pl,ql,pr,qr] = pdex4bc(xl,ul,xr,ur,t)
or
function [pl,ql,pr,qr] = pdex4bc(~,ul,~,ur,~)

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