clear
clc
close all
load matlab_10.mat
init= 24500;
k = 1.4;
R = 287.05;
p01 = 1e5;
T01 = 303.35;
cp = 1005;
ro1 = 1.15;
AFR = 14.71;
A_eff = .03;
A_0 = A_eff/.6;
E_R = [1:0.001:4];
T_3 = 1173.15;
eta_t = 0.6;
eta_c = 0.95;
I = 0.001;
mass_flow_compressor = 0.273675009794891;
mass_flow_compressor_corrected = (mass_flow_compressor*(T01^0.5))./p01;
P_R = 2.591609007038750;
p2 = P_R*p01;
mass_flow_compressor_corrected = (mass_flow_compressor_corrected*ones(1,length(E_R))).*(1+(1./AFR));
mass_flow_turbine_corrected = A_eff.*((k./R).^0.5).*((1./E_R).^(1/k)).*(((2./k-1).*(1-(1./E_R).^((k-1)./k))).*0.5);
x_ER = interp1(mass_flow_turbine_corrected - mass_flow_compressor_corrected, E_R, 0);
y_ER = A_eff.*((k./R).^0.5).*((1./x_ER).^(1/k)).*(((2./k-1).*(1-(1./x_ER).^((k-1)./k))).*0.5);
figure()
plot(E_R,mass_flow_turbine_corrected,...
E_R,mass_flow_compressor_corrected,'linewidth',3)
grid on
grid minor
xlabel('ER')
legend('turbine','compressor')
ylabel('m*s*K^{0.5}')
title('ER vs mass flow')
hold on
plot(x_ER, y_ER, 'pg','linewidth',3)
hold off
text(x_ER, y_ER, sprintf('\\uparrow\nIntersection:\nx\\_ER = %.3f\ny\\_ER = %.3f', x_ER, y_ER),...
'HorizontalAlignment','left', 'VerticalAlignment','top')
Pt = ((y_ER.*p01)./(T01^0.5)).*eta_t.*(k./(k-1)).*R.*T_3.*(1-(1./(x_ER.^((k-1)./k))));
Pc = ((y_ER.*p01)./(T01^0.5)).*(1./eta_c).*(k./(k-1)).*R.*T01.*((p2./p01).^((k-1)./k)-1);
mass_flow_compressor_vet = phi_10(init:end);
mass_flow_compressor_vet_corrected = (mass_flow_compressor_vet*(T01^0.5))./p01;
mass_flow_compressor_vet_corrected = mass_flow_compressor_vet_corrected*ones(1,length(E_R)).*(1+(1./AFR));
for i=1:length(phi_10(init:end))
x_ER_vet(i,:) = interp1(mass_flow_turbine_corrected - mass_flow_compressor_vet_corrected(i,:), E_R, 0);
y_ER_vet(i,:) = A_eff.*((k./R).^0.5).*((1./x_ER_vet(i,:)).^(1/k)).*(((2./k-1).*(1-(1./x_ER_vet(i,:)).^((k-1)./k))).*0.5);
end
figure()
plot(t_10(init:end),omega_vet,'linewidth',3)
grid on
grid minor
xlabel('t [s]')
legend('\omega')
ylabel('rpm')
hold on
title('\omega')
