Isn't your equation
dC_A/dt = -k*A
the equation for
rate = k*[A]
?
Solving ODEs for chemical rate equations
조회 수: 18 (최근 30일)
이전 댓글 표시
I am trying to model a chemical equation of the form rate = k [a]^1 *[b]^-1. I have managed witht the help of some you tube resources to model a an equation for one reactant but am unsure of how to include the second. Here is the code i have got so far and any help would be appreciated.
clear all
close all
clc
K = 0.06;
timespan = [0 30]';
A0 = 0.5;
first = @(t,A) -K*A
[t,A_calc] = ode45(first,timespan,A0)
plot(t,A_calc, 'o','Linewidth',1,'Markersize',10)
채택된 답변
Star Strider
2022년 11월 15일
Here is prototype code for integrating the solution for a different kinetic parameter estimation problem with four rate equations —
t=[0.1
0.2
0.4
0.6
0.8
1
1.5
2
3
4
5
6];
c=[0.902 0.06997 0.02463 0.00218
0.8072 0.1353 0.0482 0.008192
0.6757 0.2123 0.0864 0.0289
0.5569 0.2789 0.1063 0.06233
0.4297 0.3292 0.1476 0.09756
0.3774 0.3457 0.1485 0.1255
0.2149 0.3486 0.1821 0.2526
0.141 0.3254 0.194 0.3401
0.04921 0.2445 0.1742 0.5277
0.0178 0.1728 0.1732 0.6323
0.006431 0.1091 0.1137 0.7702
0.002595 0.08301 0.08224 0.835];
theta0 = rand(10,1);
[theta,Rsdnrm,Rsd,ExFlg,OptmInfo,Lmda,Jmat]=lsqcurvefit(@kinetics,theta0,t,c,zeros(size(theta0)));
fprintf(1,'\tRate Constants:\n')
for k1 = 1:numel(theta)
fprintf(1, '\t\tTheta(%2d) = %8.5f\n', k1, theta(k1))
end
tv = linspace(min(t), max(t));
Cfit = kinetics(theta, tv);
figure
hd = plot(t, c, 'p');
for k1 = 1:size(c,2)
CV(k1,:) = hd(k1).Color;
hd(k1).MarkerFaceColor = CV(k1,:);
end
hold on
hlp = plot(tv, Cfit);
for k1 = 1:size(c,2)
hlp(k1).Color = CV(k1,:);
end
hold off
grid
xlabel('Time')
ylabel('Concentration')
legend(hlp, compose('C_%d',1:size(c,2)), 'Location','best')
function C=kinetics(theta,t)
c0=theta(end-3:end);
[T,Cv]=ode45(@DifEq,t,c0);
%
function dC=DifEq(t,c)
dcdt=zeros(4,1);
dcdt(1)=-theta(1).*c(1)-theta(2).*c(1);
dcdt(2)= theta(1).*c(1)+theta(4).*c(3)-theta(3).*c(2)-theta(5).*c(2);
dcdt(3)= theta(2).*c(1)+theta(3).*c(2)-theta(4).*c(3)+theta(6).*c(4);
dcdt(4)= theta(5).*c(2)-theta(6).*c(4);
dC=dcdt;
end
C=Cv;
end
Each rate equation needs to be coded separately (here in the ‘DifEq’ function), then the integration can proceed.
.
댓글 수: 2
Star Strider
2022년 11월 15일
As always, my pleasure!
I would code that as:
dcdt(1) = K(1)*C(2)/C(1);
where ‘K’ is a vector of parameters to be estimated (‘theta’ in the code I posted), ‘C(1)’ is the concentration of ‘a’ and ‘C(2)’ is the concentration of ‘b’. Using the -1 exponent to indicate division is inefficient. Just do the division directly.
Code the other equations similarly.
I keep track of the vector elements that represent concentrations in a comment line, for example:
% C(1) = a, C(2) = b, C(3) = c
and if necessary, do the same thing for the parameters:
% K(1) = K_a, K(2) = K_b
in order to not lose track of them. That also makes it easier to display them correctly later.
.
추가 답변 (0개)
참고 항목
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
또한 다음 목록에서 웹사이트를 선택하실 수도 있습니다.
미주
- América Latina (Español)
- Canada (English)
- United States (English)
유럽
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
아시아 태평양
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)