# Storing Iteration Results in Matlab

I have the code below.

``````for k=40:10:80
T(k)=273.15+k;
z=[0.2 0.2 0.2 0.4];
W_PR=0.245;
C=4;
omega=[0.344 0.467 0.578 0.789];
Tc=[600 700 500 570];
Pc=[50 70 58 76];
for c=1:C

x_PR(1,c)=z(c)/(1+W_PR*(K_PR(c)-1));
x_PR(2,c)=K_PR(c)*x_PR(1,c);
end
for c=1:C
kappa_PR=0.37464+1.54226.*omega(c)-0.26992.*omega(c).^2;
alpha_PR=(1+kappa_PR.*(1-sqrt(T(k)./Tc(c)))).^2;
a_PR(c,c)=0.45724.*R.^2.*Tc(c).^2./Pc(c).*alpha_PR;
b_PR(c)=0.07780*R.*Tc(c)./Pc(c);
end
for c=2:C
for n=1:(c-1)
a_PR(c,n)=sqrt(a_PR(c,c).*a_PR(n,n));
a_PR(n,c)=a_PR(c,n);
end
end
for c=1:C
A_PR(c,c)=a_PR(c,c).*P./(R.*T(k)).^2;
B_PR(c)=b_PR(c).*P./(R.*T(k));
end
for c=1:C
Z(c,c)=A_PR(c,c)./5;
V(c)=B_PR(c).*6;
end
end
``````

Each time I run the code, I want result for Z and V at each T(k). The code as it is only gives result for one T value though I want it to run the loop and give result for Z and V for all T(k).

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You might want to define some of your parameters outside of your main loop to, at the very least, preallocate storage.

``````Z_store = ones(C,C,5); % if you want to use a 3d matrix
``````

and

``````V_store = ones(5,C);
``````

The new function:

``````function [Z_store V_store] = SO_test1()
z=[0.2 0.2 0.2 0.4];
W_PR=0.245;
C=4;
omega=[0.344 0.467 0.578 0.789];
Tc=[600 700 500 570];
Pc=[50 70 58 76];
R=8.314;
P=20;
Z_store = ones(C,C,5);
V_store = ones(5,C);
K_PR=[1.546e-2, 0.456, 1.432e2, 14.32];
iter = 0;

for k=40:10:80

T(k)=273.15+k;
for c=1:C
x_PR(1,c)=z(c)/(1+W_PR*(K_PR(c)-1));
x_PR(2,c)=K_PR(c)*x_PR(1,c);
kappa_PR=0.37464+1.54226.*omega(c)-0.26992.*omega(c).^2;
alpha_PR=(1+kappa_PR.*(1-sqrt(T(k)./Tc(c)))).^2;
a_PR(c,c)=0.45724.*R.^2.*Tc(c).^2./Pc(c).*alpha_PR;
b_PR(c)=0.07780*R.*Tc(c)./Pc(c);
end
for c=2:C
for n=1:(c-1)
a_PR(c,n)=sqrt(a_PR(c,c).*a_PR(n,n));
a_PR(n,c)=a_PR(c,n);
end
end
for c=1:C
A_PR(c,c)=a_PR(c,c).*P./(R.*T(k)).^2;
B_PR(c)=b_PR(c).*P./(R.*T(k));
Z(c,c)=A_PR(c,c)./5;
V(c)=B_PR(c).*6;
end
iter = iter + 1;
Z_store(:,:,iter) = Z;
V_store(iter,:) = V;

end
end
``````
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Thanks, I added Z_store and V_store as you have advised but the Z and V value still giving result for the last iteration. You can try and run the code. I forgot to put R=8.314; P=20; – user1641478 Sep 2 '12 at 9:26
Im not sure what you mean when you say the results are from the last iteration. Further, I cannot run this code - `K_PR` is not defined. – AGS Sep 2 '12 at 9:54
Thanks, What I mean when I run the code, V is 1 by 4 matrix and Z is 4 by 4 matrix with 12 zeros. I have included the missing parameters. Please run it and check for Z and V. – user1641478 Sep 2 '12 at 10:03
W_PR=0.245; K_PR(1)=1.546e-2; K_PR(2)=0.456; K_PR(3)=1.432e2; K_PR(4)=14.32; P=20; R=8.314; – user1641478 Sep 2 '12 at 10:04
Hi AGS, Please help me to check the code using the missing parameters I have sent. Thanks – user1641478 Sep 2 '12 at 10:37

Your result matrices `V` and `Z` need to have higher dimension. From your code you only assign values to Z in the form

`````` Z(c,c) = value
``````

and V in the form

`````` V(c) = value
``````

thus it appears that your Z is simply a 2d matrix who only ever has diagonal entries defined and V is just a simple vector. Your iteration runs over all values of your loop variable `k` but each time you are overwriting the current values within these arrays. Consider making `V` a 2D array and `Z` a 3D array so that they have the capacity to store the results at a separate index for each value of the iteration variable `k`

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