Temperature profile must increase expoenetial but mine is decreasing,dy(15) is temperature profile diff equation.If ra or rp in code gets changed it changes because rest is constant

1 vue (au cours des 30 derniers jours)
An adiabtic bathc reactor model is getting developed the function is given here,I have to get an exponential increase when plotting time vs temperature dy(15),but i am getting exponential decrease.Please help me with that
function dy=adiabatic_batch(t,y)
k=deadkineticestimation(y(15));
dy=zeros(17,1);
if(y(6)==0.0 || y(7)==0.0 || y(9)==0.0 || y(10)==0.0 || y(12)==0.0 || y(13)==0.0)
lam3=0.0;
mu3=0.0;
gam3=0.0;
else
lam3=(y(8)*((2*y(8)*y(6))-(y(7)*y(7))))./(y(7)*y(6));
mu3=(y(11)*((2*y(11)*y(9))-(y(10)*y(10))))./(y(10)*y(9));
gam3=(y(14)*((2*y(14)*y(12))-(y(13)*y(13))))./(y(13)*y(12));
end
Hra=50.100;%%kj/mol
Hrp=-23.300;
ra=-((-1*k(1)*y(1)*y(2))+(k(2)*y(3)*y(4))-(k(3)*y(1)*y(9))+(k(4)*y(6)*y(4)));
rp=((-1*k(5)*y(5)*y(3))-(k(7)*y(5)*y(6))+(k(8)*y(6)));
mtot=11.734;
cp=2.06;
Mmon=144.14;
Mcat=405.1;
Mcocat=186.34;
Macid=144.22;
Di=315.9; %in mm
%equation 16
density_cat=1200;
density_cocat=820;
density_acid=908.8;
density_pla=k(17);
% Dilution terms included
rcat=-ra;
rcocat=(-1*k(1)*y(1)*y(2))+(k(2)*y(3)*y(4))-(k(9)*y(2)*y(6))+(k(10)*y(3)*y(9));
racid=ra;
rmon=-rp;
rini=(-1*k(5)*y(5)*y(3))+(k(1)*y(1)*y(2))-(k(2)*y(3)*y(4))+(k(9)*y(2)*y(6))-(k(10)*y(9)*y(3));
rla0=(k(3)*y(9)*y(1))-(k(4)*y(6)*y(4))+(k(5)*y(5)*y(3))-(k(9)*y(6)*y(2))+(k(10)*y(9)*y(3));
rla1=((k(3)*y(10)*y(1))-(k(4)*y(7)*y(4))+(k(5)*y(5)*y(3))+(k(7)*y(5)*y(6))-(k(8)*y(6))-(k(9)*y(7)*y(2))+ ...
(k(10)*y(10)*y(3))-(k(11)*y(7)*y(9))+(k(12)*y(10)*y(6))-(k(13)*y(7)*(y(10)-y(9)))+(0.5*k(14)*y(6)*(y(11)-y(10)))-(k(15)*y(7)*((y(13)-y(12)))+(0.5*k(16)*y(6)*(y(14)-y(13)))-(0.5*k(20)*(y(8)-y(7)))));
rla2=(k(3)*y(11)*y(1))-(k(4)*y(8)*y(4))+(k(5)*y(5)*y(3))+(k(7)*y(5)*((2*y(7))+y(6)))+(k(8)*(y(6)-(2*y(7))))- ...
(k(9)*y(8)*y(2))+(k(10)*y(11)*y(3))-(k(11)*y(8)*y(9))+(k(12)*y(11)*y(6))+(0.33333*k(13)*y(6)*(y(7)-lam3))+ ...
(k(14)*y(7)*(y(8)-y(7)))-(k(15)*y(8)*(y(10)-y(9)))+(0.16667*k(16)*y(6)*((2*mu3))-((3*y(11))+y(10)))-((k(23)*y(8)*(y(13)-y(12))))+(0.166*k(24)*y(6)*((2*gam3)-(3*y(14))+y(13)))-(0.1666*k(20)*((4*lam3)-(3*y(8))-y(7)));
rmu0=(-1*k(3)*y(9)*y(1))+(k(4)*y(6)*y(4))+(k(9)*y(6)*y(2))-(k(10)*y(9)*y(3));
rmu1=(-1*k(3)*y(10)*y(1))+(k(4)*y(7)*y(4))+(k(9)*y(7)*y(2))-(k(10)*y(10)*y(3))+(k(11)*y(7)*y(9))-(k(12)*y(10)*y(6))...
+(k(15)*y(7)*(y(10)-y(9)))-(0.5*k(16)*y(6)*(y(11)-y(10)))-(0.5*k(20)*(y(11)-y(10)));
rmu2=(-1*k(3)*y(11)*y(1))+(k(4)*y(8)*y(4))+(k(9)*y(8)*y(2))-(k(10)*y(11)*y(3))+(k(11)*y(8)*y(9))-(k(12)*y(11)*y(6))+ ...
(k(15)*y(8)*(y(10)-y(9)))+(k(16)*y(7)*(y(11)-y(10)))+(0.16667*k(16)*y(6)*((-4*mu3)+(3*y(11))+y(10)))-(0.166*k(20)*((4*mu3)-(3*y(11))-y(10)));
rga0=((k(20)*(y(7)-y(6)))+(k(21)*(y(10)-y(9))));
rga1=(k(13)*y(7)*(y(13)-y(12))-(0.5*k(14)*y(6)*(y(14)-y(13)))-(k(20)*(y(14)-y(13)))...
+(0.5*k(21)*(y(8)-y(7)))+(0.5*k(22)*(y(11)-y(10))));
rga2=((k(13)*y(8)*(y(13)-y(12))+(k(14)*y(7)*(y(14)-y(13)))+(0.16666*k(15)*y(6)*((-4*gam3+(3*y(14)+y(13)))))-(0.333*k(20)*((4*gam3)-(3*y(14))-y(13))))+(0.1666*k(21)*((2*lam3)-(3*y(8))+y(7)))...
+(0.1666*k(22)*((2*mu3)-(3*y(11))+y(10))));
% dilution terms for 1-14
dilution_1=rcat-(y(1)/y(16))*dy(16);
dilution_2=rcocat-(y(2)/y(16))*dy(16);
dilution_3=rini-(y(3)/y(16))*dy(16);
dilution_4=racid-(y(4)/y(16))*dy(16);
dilution_5=rmon-(y(5)/y(16))*dy(16);
dilution_6=rla0-(y(6)/y(16))*dy(16);
dilution_7=rla1-(y(7)/y(16))*dy(16);
dilution_8=rla2-(y(8)/y(16))*dy(16);
dilution_9=rmu0-(y(9)/y(16))*dy(16);
dilution_10=rmu1-(y(10)/y(16))*dy(16);
dilution_11=rmu2-(y(11)/y(16))*dy(16);
dilution_12=rga0-(y(12)/y(16))*dy(16);
dilution_13=rga1-(y(13)/y(16))*dy(16);
dilution_14=rga2-(y(14)/y(16))*dy(16);
%}
a=rmon/k(17);
b=(y(5)*y(16)*Mmon)/((k(17))^2);
diff_mon=((-0.8462)/(1.110865+(7.391*10^-4*y(15)))^2);
diff_pla=((-0.8462)/(1.110865+(7.391*10^-4*y(15)))^2);
c=rcat/density_cat;
d=rcocat/density_cocat;
e=racid/density_acid;
f=(1-(1/density_pla));
g=(mtot-(((y(5)*Mmon)+(y(1)*Mcat)+(y(2)*Mcocat)+(y(4)*Macid))*y(16))/((density_pla)^2));
dy(1)=(-1*k(1)*y(1)*y(2))+(k(2)*y(3)*y(4))-(k(3)*y(1)*y(9))+(k(4)*y(6)*y(4))+dilution_1;
dy(2)=(-1*k(1)*y(1)*y(2))+(k(2)*y(3)*y(4))-(k(9)*y(2)*y(6))+(k(10)*y(3)*y(9))+dilution_2;
dy(3)=(-1*k(5)*y(5)*y(3))+(k(1)*y(1)*y(2))-(k(2)*y(3)*y(4))+(k(9)*y(2)*y(6))-(k(10)*y(9)*y(3))+dilution_3; % +(k(4)*y(6));
dy(4)=(k(1)*y(1)*y(2))-(k(2)*y(3)*y(4))+(k(3)*y(1)*y(9))-(k(4)*y(6)*y(4))+dilution_4;
dy(5)=(-1*k(5)*y(5)*y(3))-(k(7)*y(5)*y(6))+(k(8)*y(6))+dilution_5;
dy(6)=(k(3)*y(9)*y(1))-(k(4)*y(6)*y(4))+(k(5)*y(5)*y(3))-(k(9)*y(6)*y(2))+(k(10)*y(9)*y(3))+dilution_6;
dy(7)=((k(3)*y(10)*y(1))-(k(4)*y(7)*y(4))+(k(5)*y(5)*y(3))+(k(7)*y(5)*y(6))-(k(8)*y(6))-(k(9)*y(7)*y(2))+ ...
(k(10)*y(10)*y(3))-(k(11)*y(7)*y(9))+(k(12)*y(10)*y(6))-(k(13)*y(7)*(y(10)-y(9)))+(0.5*k(14)*y(6)*(y(11)-y(10)))-(k(15)*y(7)*((y(13)-y(12)))+(0.5*k(16)*y(6)*(y(14)-y(13)))-(0.5*k(20)*(y(8)-y(7)))))+dilution_7;
%mu3
dy(8)=(k(3)*y(11)*y(1))-(k(4)*y(8)*y(4))+(k(5)*y(5)*y(3))+(k(7)*y(5)*((2*y(7))+y(6)))+(k(8)*(y(6)-(2*y(7))))- ...
(k(9)*y(8)*y(2))+(k(10)*y(11)*y(3))-(k(11)*y(8)*y(9))+(k(12)*y(11)*y(6))+(0.33333*k(13)*y(6)*(y(7)-lam3))+ ...
(k(14)*y(7)*(y(8)-y(7)))-(k(15)*y(8)*(y(10)-y(9)))+(0.16667*k(16)*y(6)*((2*mu3))-((3*y(11))+y(10)))-((k(23)*y(8)*(y(13)-y(12))))+(0.166*k(24)*y(6)*((2*gam3)-(3*y(14))+y(13)))-(0.1666*k(20)*((4*lam3)-(3*y(8))-y(7)))+dilution_8;
dy(9)=(-1*k(3)*y(9)*y(1))+(k(4)*y(6)*y(4))+(k(9)*y(6)*y(2))-(k(10)*y(9)*y(3))+dilution_9;
dy(10)=(-1*k(3)*y(10)*y(1))+(k(4)*y(7)*y(4))+(k(9)*y(7)*y(2))-(k(10)*y(10)*y(3))+(k(11)*y(7)*y(9))-(k(12)*y(10)*y(6))...
+(k(15)*y(7)*(y(10)-y(9)))-(0.5*k(16)*y(6)*(y(11)-y(10)))-(0.5*k(20)*(y(11)-y(10)))+dilution_10;
dy(11)=(-1*k(3)*y(11)*y(1))+(k(4)*y(8)*y(4))+(k(9)*y(8)*y(2))-(k(10)*y(11)*y(3))+(k(11)*y(8)*y(9))-(k(12)*y(11)*y(6))+ ...
(k(15)*y(8)*(y(10)-y(9)))+(k(16)*y(7)*(y(11)-y(10)))+(0.16667*k(16)*y(6)*((-4*mu3)+(3*y(11))+y(10)))-(0.166*k(20)*((4*mu3)-(3*y(11))-y(10)))+dilution_11;
dy(12)=((k(20)*(y(7)-y(6)))+(k(21)*(y(10)-y(9)))+dilution_12);
dy(13)=(k(13)*y(7)*(y(13)-y(12))-(0.5*k(14)*y(6)*(y(14)-y(13)))-(k(20)*(y(14)-y(13)))...
+(0.5*k(21)*(y(8)-y(7)))+(0.5*k(22)*(y(11)-y(10)))+dilution_13);
dy(14)=((k(13)*y(8)*(y(13)-y(12))+(k(14)*y(7)*(y(14)-y(13)))+(0.16666*k(15)*y(6)*((-4*gam3+(3*y(14)+y(13)))))-(0.333*k(20)*((4*gam3)-(3*y(14))-y(13))))+(0.1666*k(21)*((2*lam3)-(3*y(8))+y(7)))...
+(0.1666*k(22)*((2*mu3)-(3*y(11))+y(10)))+dilution_14);
dy(15)=(((-Hra*ra+(-Hrp)*rp)*y(16)))/(mtot*cp);
dy(16)=(((a-(b*diff_mon*dy(15)+c+d+e)*f)-(g*diff_pla*dy(15))));
dy(17)=((4/(3.14*Di^2))*dy(16))*10^6;
end
calling Code:
y0=[1 15 0 0 6000 0 0 0 0 0 0 0 0 0 140 10.121 185 ];
ts=[0 2];
[P,X]=ode15s(@adiabatic_batch,ts,y0);
mw=144*(X(:,8)+X(:,11)+X(:,14))./(X(:,10)+(X(:,7)+X(:,13)));
mn=144*(X(:,7)+X(:,10)+X(:,13))./(X(:,9)+X(:,6)+X(:,12));
conv=1-(X(:,5)/y0(5));
pdi=mw./mn ;
Temp=X(:,15);
plot(P,Temp,'-','LineWidth',2,'DisplayName','3771');
hold on
  2 commentaires
Rik
Rik le 20 Déc 2020
This time I edited your question for you. Next time, please use the tools explained on this page to make your question more readable.
Azeeth Kumar M
Azeeth Kumar M le 20 Déc 2020
Thank you so much,Rik.Since I am new to this community,I didn't have any idea about the tools.Thanks once again.

Connectez-vous pour commenter.

Réponses (0)

Catégories

En savoir plus sur Programming dans Help Center et File Exchange

Produits


Version

R2013b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by