How do i modify the code in order to make the boundary conditions variable (changing every iteration) for 1D transient heat transfer implicit finite difference method ?

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maram alkamel le 14 Oct 2024

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Modifié(e) : Torsten le 14 Oct 2024

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clear all;

% input data

Kair=0.0242; %thermal conductivity of air

Den_air=1.225; %density of air

Cp_air=1006.43; %specific heat of air

Kglass=0.96; % thermal conductivity of glass

Den_glass=2500; %density of glass

Cp_glass=840; %specific heat of glass

L=0.018;

tf=20; %time limit

Ta=23; %ambient temp (celcius)

Ts=40; %source heat (celcius)

%step

Nt=101;

Nz=29;

t=linspace(0,tf,Nt);

z=linspace(0,L,Nz);

dt=t(2)-t(1);

dz=z(2)-z(1);

%Matrix prep

A=zeros(Nz,Nz); %position

B=zeros(Nz,1); %constant

T=zeros(Nt,Nz); %our goal

%fill T with IC

%initial Condition

T(1,:)=ones(1,Nz)*Ta;

%BC-1

A(1,1)=1;

B(1)=Ts;

%BC-2

A(end,end)=1;

B(end)=Ta;

%for simplfy calculation

alfa_air=Kair/(Den_air*Cp_air)

alfa_air = 1.9629e-05

alfa_glass=Kglass/(Den_glass*Cp_glass)

alfa_glass = 4.5714e-07

var=dt./dz.^2;

%tridiagonal matrix

for j=2:Nt %j=time, time start for 2

for i=2:Nz-22 %i=position

s= alfa_glass*var;

A(i,i-1)=-s;

A(i,i)=1+2*s;

A(i,i+1)=-s;

B(i)=T(j-1,i); %j-1 means 2-1=1

end

for i=8:Nz-6 %i=position

s= alfa_air*var;

A(i,i-1)=-s;

A(i,i)=1+2*s;

A(i,i+1)=-s;

B(i)=T(j-1,i); %j-1 means 2-1=1

end

for i=24:Nz-1 %i=position

s= alfa_glass*var;

A(i,i-1)=-s;

A(i,i)=1+2*s;

A(i,i+1)=-s;

B(i)=T(j-1,i); %j-1 means 2-1=1

end

T(j,:)=A\B;

figure (1)

plot(z,T(j,:), 'LineWidth',3)

title(['Temp at t=', num2str(t(j)),'sec' ])

axis ([0 L 0 Ts])

xlabel('Distance')

ylabel('Temperature')

pause (0.1)

end

figure (2)

imagesc(z,t,T)

title ('Distribution Temperature')

xlabel('Distance')

ylabel('Time')

colormap jet

colorbar

grid on

the code above solves 1D transient heat transfer implicit form, but the boundary conditions are fixed. the attached pictures shows my boundary conditions where T1, T0, TNz, TNz-1 are variables they are chaning with time just like the interior nodes, the other values are all known like Tin, h, etc.. how do i modify the code based on these boundray conditions?

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Torsten le 14 Oct 2024

Modifié(e) : Torsten le 14 Oct 2024

Use "pdepe" with the internal nodes where the material properties change being part of the mesh.

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How do i modify the code in order to make the boundary conditions variable (changing every iteration) for 1D transient heat transfer implicit finite difference method ?

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How do i modify the code in order to make the boundary conditions variable (changing every iteration) for 1D transient heat transfer implicit finite difference method ?

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