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PDEPE solver failure (spatial discretization) ; partial differential/derivative temperature modelling

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Josh
Josh el 20 de Abr. de 2024
Editada: Torsten el 20 de Abr. de 2024
Attempting to model temperature profile of an adsorption column based on concentration profile since this determines the heat of adsorption.
This is the function:
function[c,f,s] = pdefunEB(x,t,u,dudx)
global qmax_phenol K_L_phenol kf De u_s Rep Dp epsilon rho_liq cp_AC cp_feed H_ads h alpha
C = u(1) ;
q = u(2) ;
Tf = u(3) ;
dCdx = dudx(1) ;
dqdx = dudx(2) ;
dTdx = dudx(3) ;
Ts = 298.15 ; % adsorbent temp Kelvin
qstar = ((qmax_phenol)*(K_L_phenol)*C)/(1+(K_L_phenol)*C) ;
dqdt = kf*(qstar-q) ;
c = ones(3,1) ;
f = [De*dCdx;
0;
0];
s = [-u_s*dCdx-(1-epsilon)/epsilon*rho_liq*dqdt;
dqdt;
-u_s*dTdx+(((h*alpha*(Tf-Ts)-(H_ads/cp_AC))+(H_ads/cp_feed))*(dqdt*((1-epsilon)/epsilon)))] ;
end
%% initial condition
function u0 = icfunEB(x)
u0 = [0;
0;
298.15] ;
end
%% boundary condition
function [p1,q1,pr,qr] = bcfunEB(x1,u1,xr,ur,t)
global C_phenol
C0 = C_phenol ;
p1 = [u1(1)-C0;0;-298.15] ;
q1 = [0;1;0] ;
pr = [0;0;0] ;
qr = [1;1;1] ;
end
this is where the error appears (Error using pdepe Spatial discretization has failed. Discretization supports only parabolic and elliptic equations, with flux term involving spatial derivative)
mEB = 0 ;
sol1 = pdepe(mEB,@pdefunEB,@icfunEB,@bcfunEB,x,t) ;
CEB = sol1(:,:,1) ;
qEB = sol1(:,:,2) ;
TEB = sol1(:,:,3) ;
figure(2)
T0 = 298.15 ;
Cp1 = C1(:,end)./C01 ;
plot(t,TEB,'b-','LineWidth',2)
grid on
title('Column Temperature')
xlabel('time in minutes')
ylabel('temp in kelvin')
Heres a picture of my mathematical working before input into matlab:

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Torsten
Torsten el 20 de Abr. de 2024
Editada: Torsten el 20 de Abr. de 2024
Please include the constants defined as globals so that we can test your code.
One obvious error is the boundary condition for T in the left boundary point. Use
p1 = [u1(1)-C0;0;u1(3)-298.15] ;
instead of
p1 = [u1(1)-C0;0;-298.15] ;
Another problem can be that f = 0 for equations (2) and (3). "pdepe" - as the name indicates - is designed for parabolic-elliptic partial differential equations (thus for equations with second-order spatial derivatives present). Your second equation is a simple ODE, your third equation is hyperbolic in nature.
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Josh
Josh el 20 de Abr. de 2024
Editada: Josh el 20 de Abr. de 2024
Yes, so the error message has changed since i implemented your boundary condition change... How would you go about fixing it ?
Torsten
Torsten el 20 de Abr. de 2024
Editada: Torsten el 20 de Abr. de 2024
As you can see above, the temperature explodes at the right endpoint (see above). Check the possible reasons (especially your sourceterm -u_s*dTdx+(((h*alpha*(Tf-Ts)-(H_ads/cp_AC))+(H_ads/cp_feed))*(dqdt*((1-epsilon)/epsilon))) )
h*alpha = 1.5e9 !!!

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