How to solve an ODE with an array using ODE45?

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DIP am 20 Feb. 2017

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Kommentiert: DIP am 6 Mär. 2017

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I have an ODE, udY/dx=S , where Y and S are arrays , how do I solve it using ODE45 ???

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DIP am 20 Feb. 2017

Bearbeitet: DIP am 20 Feb. 2017

velocity. its constant

Jan am 20 Feb. 2017

@DIP: Please provide more details. "velocity" does not help, because Matlab does not care about the physical meaning of variables. Post the function you want to integrate, preferrably in valid Matlab code. If it is written correctly, all you have to do is calling ode45.

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DIP am 6 Mär. 2017

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https://de.mathworks.com/matlabcentral/answers/325911-how-to-solve-an-ode-with-an-array-using-ode45#answer_257476

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% Solution 4: Chemical Species Concentration as a Function of Axial Distance
clc
clear
% Constants
L  = 0.12;
N  = 39;
T(1:N) = 750;
delx     = L/(N-1);
xspan    = 0:delx:0.12;
C0       = [0.52 0.99 0.0];
% ODE 45 Code
[x,C]=ode45('hw2_4',xspan,C0);
% Plots
subplot(2,1,1);
plot(x,C(:,1),'b--o',x,C(:,2),'g--+',x,C(:,3),'r--s')
legend('C_{CO}','C_{O2}','C_{CO2}')
xlabel('Axial (x) Direction [m]')
ylabel('Concentrations [mol/m^3]')
title('Molar Concentration vs Distance')

Function File:

function dcdx=hw2_4(x,C)
% Constants
u = 1.5;
A  = 2.2e10;
Ea = 130000;
Ru = 8.3145;
T  = 750;
% Rate Constants
R(1)     = -A * (exp(-Ea / (Ru*T))) * C(1) * sqrt(C(2)); 
R(2)     = 0.5 * R(1);  
R(3)     = -R(1);
dcdx     = [R(1);R(2);R(3)]/u;

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DIP am 6 Mär. 2017

Thank you Jan, Star Strider,

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Jan am 20 Feb. 2017

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https://de.mathworks.com/matlabcentral/answers/325911-how-to-solve-an-ode-with-an-array-using-ode45#answer_255511

Bearbeitet: Jan am 21 Feb. 2017

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ode45 works with vectors, therefor if Y is a vector, the provided examples in the docs should help: https://www.mathworks.com/help/matlab/ref/ode45.html#examples . If not, please post more details by editing the question.

[EDITED, Considering your comments] Perhaps you mean this:

function main
% Initial Conditions
Cco(1)  = 0.52; %Y1
Co2(1)  = 0.99; %Y2
Ch2o(1) = 0;    %Y3
L     = 0.12;
N     = 39;
delx  = L/(N-1);
x     = 0:delx:0.12;
C0    = [Cco; Co2; Ch2o];
[x,C] = ode45(@DiffEQ, x, C0);
plot (x,C)
end
function dC = DiffEQ(x, C)
u = 1.5;
A  = 2.2e10;
Ea = 130;
Ru = 8.3145;
T  = 750;
Cco  = C(1);
Co2  = C(2);
Ch2o = C(3);
Rco  = -A * (exp(-Ea / (Ru*T))) * Cco * sqrt(Co2); %S1
Ro2  = 0.5 * Rco;  %S2
Rh2o = -Rco;       %S3
dC   = [Rco; Ro2; Rh2o] / u;
end

This needs a lot of processing time. Using ode15s was successful in less than a second (are you sure the system is not stiff). The diagram looks nicer, if you define:

x = [0, 0.12];

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DIP am 21 Feb. 2017

I think its got to do with defining the arrays of C and R correctly.

Jan am 21 Feb. 2017

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@DIP: @(x,C) R/u is constant. Changes in the coordinates are not considered, because all calls of "R/u" reply the same value. Better use a normal function instead of a anonymous function. I've showed you already, how to do this.

Concerning:

documentation for the last line of your main function

do you mean "plot(x,C)"?

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