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plot_dfn.m
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plot_dfn.m
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%% Plot Doyle-Fuller-Newman Model Results
% Created May 23, 2012 by Scott Moura
close all;
figure(1)
clf
subplot(3,1,1)
plot(t,I,'LineWidth',2)
ylabel('Current')
subplot(3,1,2)
plot(t,Volt,'LineWidth',2)
ylabel('Voltage')
subplot(3,1,3)
plot(t,SOC,'LineWidth',2)
ylabel('SOC')
xlabel('Time [sec]')
pause;
%% Animation
for k = 1:NT
figure(2)
set(gcf,'Position',[103 3 1151 673]);
subplot(3,3,1)
cla
plot(1:Nn,c_ss_n(:,k)/p.c_s_n_max,1:Nn,c_avg_n(:,k)/p.c_s_n_max,'LineWidth',2);
% plot(1:Nn,phi_s_n(:,k),'LineWidth',2);
xlim([1 Nn])
ylim([min(min(c_ss_n/p.c_s_n_max)) max(max(c_ss_n/p.c_s_n_max))])
% ylim([min(min(phi_s_n)) max(max(phi_s_n))])
ylabel('$$c_{ss,n}(x,t)$$','interpreter','latex')
% ylabel('$$\phi_{s,n}$$','interpreter','latex')
subplot(3,3,3)
cla
plot(1:Np,c_ss_p(:,k)/p.c_s_p_max,1:Np,c_avg_p(:,k)/p.c_s_p_max,'LineWidth',2);
% plot(1:Np,phi_s_p(:,k),'LineWidth',2)
xlim([1 Np])
ylim([min(min(c_ss_p/p.c_s_p_max)) max(max(c_ss_p/p.c_s_p_max))])
% ylim([min(min(phi_s_p)) max(max(phi_s_p))])
ylabel('$$c_{ss,p}(x,t)$$','interpreter','latex')
% ylabel('$$\phi_{s,p}$$','interpreter','latex')
jall = [jn(:,k); zeros(p.Nxs-1,1); jp(:,k)];
etaall = [eta_n(:,k); zeros(p.Nxs-1,1); eta_p(:,k)];
ieall = [i_en(:,k); I(k)*ones(p.Nxs-1,1); i_ep(:,k)];
subplot(3,3,[4 5 6])
cla
plot(1:Nx,jall,'LineWidth',2);
xlim([1 Nx])
% ylim([min(min(i_en)), max(max(i_en))])
ylabel('$$i_{e,n}(x,t)$$','interpreter','latex')
% subplot(3,3,6)
% cla
% plot(1:Np,jp(:,k),'LineWidth',2);
% xlim([1 Np])
% % ylim([min(min(i_ep)), max(max(i_ep))])
% ylabel('$$i_{e,p}(x,t)$$','interpreter','latex')
subplot(3,3,[7 8 9])
cla
plot(1:(p.Nx+1), c_ex(:,k),'LineWidth',2);
% plot(1:(p.Nx-3), phi_e(:,k),'LineWidth',2)
% plot(1:Nx,etaall, 'LineWidth',2)
xlim([1 p.Nx+1])
ylabel('$$c_e(x,t)$$','interpreter','latex')
% ylabel('$$\phi_e$$','interpreter','latex')
ylim([min(min(c_ex)), max(max(c_ex))])
% ylim([min(min(phi_e)), max(max(phi_e))])
pause(0.1);
end
%% Animation for Seminars
Icrate = I/35;
[c_sr_n, c_sr_p] = sim_cs(p,t,jn,jp,csn0,csp0);
th_sr_n = c_sr_n / p.c_s_n_max;
th_sr_p = c_sr_p / p.c_s_p_max;
%%
figure(3)
clf;
% vidObj = VideoWriter('img/dfn_5Cdispulse.avi');
% vidObj.FrameRate = 10;
% vidObj.Quality = 100;
% open(vidObj);
for k = 3:NT
figure(3)
set(gcf,'Position',[160 -16 850 700],'PaperPositionMode','auto')
% Anode concentration
vn = linspace(0,0.9,101);
subplot(3,3,1)
contourf(fliplr(th_sr_n(:,:,k))',vn);
set(gca,'XTick',[])
set(gca,'YTick',[])
ylabel('Space, r','FontSize',18)
title('$$c_s^-(x,r,t)$$','FontSize',18,'Interpreter','latex')
set(gca,'FontSize',16)
set(gca,'Position',[0.08 0.63 0.35 0.33])
% Cathode concentration
vp = linspace(0.5,1,101);
subplot(3,3,3)
contourf(fliplr(th_sr_p(:,:,k))',vp);
set(gca,'XTick',[])
set(gca,'YTick',[])
ylabel('Space, r','FontSize',18)
title('$$c_s^+(x,r,t)$$','FontSize',18,'Interpreter','latex')
set(gca,'FontSize',16)
set(gca,'Position',[0.63 0.63 0.35 0.33])
% Electrolyte concentration
subplot(3,3,[4 5 6])
plot(linspace(0,1,Nx+4),c_ex(:,k)/1e3,'LineWidth',2);
xlim([0 1])
ylim([0 1.5])
xlabh2 = xlabel('Space, x/L','FontSize',18);
set(xlabh2,'Position',[0.5 -0.15 1]);
ylabel('$$c_e(x,t)$$','FontSize',18,'Interpreter','latex')
set(gca,'FontSize',16)
set(gca,'Position',[0.08 0.34 0.9 0.25])
% Current
subplot(3,3,[7 8 9])
plot(t,Icrate,'LineWidth',2); hold on;
% plot(t(k), Icrate(k), 'ro', 'MarkerSize',16, 'MarkerFaceColor','r'); hold off;
plot(t,Volt,'Color',[0 0.5 0],'LineWidth',2);
plot([t(k) t(k)], [0 6],'k--'); hold off;
xlim([0 t(end)]);
xlabh = xlabel('Time, t','FontSize',18);
set(xlabh, 'Position',[120, -0.5, 1])
ylabel('Current (B) | Voltage (G)','FontSize',18)
set(gca,'FontSize',16)
set(gca,'Position',[0.08 0.08 0.9 0.18])
% F = getframe(gcf);
% writeVideo(vidObj,F);
end
% close(vidObj);