Download An Integrated System Dynamics Model for
Transcript
z(10) = ((FC1+tau1)*exp(short_El)./exp(a1p) - exp(TCe1)) - ((FC2+tau2)*exp(short_El)./exp(a2p) - exp(TCe2)); z(11) = ((FC2+tau2)*exp(short_El)./exp(a2p) - exp(TCe2)) - ((FC3+tau3)*exp(short_El)./exp(a3p) - exp(TCe3)); % Heat energy production z(12) = exp(Eh) - Ah*(b1*exp(Fh1).^eta_h + b2*exp(Fh2).^eta_h + b3*exp(Fh3).^eta_h + b4*exp(Fh4).^eta_h).^(1./eta_h); z(13) = exp(Ph) - (exp(TCh1) + exp(TCh2) + exp(TCh3) + exp(TCh4))./exp(Eh); z(14) = ((FC1+tau1)*exp(short_H)./(b1*exp(Fh1).^(eta_h-1)) - exp(TCh1)) - ((FC2+tau2)*exp(short_H)./(b2*exp(Fh2).^(eta_h-1)) - exp(TCh2)); z(15) = ((FC2+tau2)*exp(short_H)./(b2*exp(Fh2).^(eta_h-1)) - exp(TCh2)) - ((FC3+tau3)*exp(short_H)./(b3*exp(Fh3).^(eta_h-1)) - exp(TCh3)); z(16) = ((FC3+tau3)*exp(short_H)./(b3*exp(Fh3).^(eta_h-1)) - exp(TCh3)) ((1+mu2)*exp(FC4)*exp(short_H)./(b4*exp(Fh4).^(eta_h-1)) - exp(TCh4)); % Nuclear and hydro electricity production z(17) = exp(e4) - a4; z(18) = exp(e5) - a5; %Fuel prices z(19) = fstar1 - (exp(Fe1) + exp(Fh1) + Exp1); z(20) = fstar2 - (exp(Fe2) + exp(Fh2) + Exp2); z(21) = fstar3 - (exp(Fe3) + exp(Fh3) + Exp3); % Total cost functions for electricity z(22) = exp(TCe1) - exp(r)*k1 - exp(Fe1)*(FC1+tau1); z(23) = exp(TCe2) - exp(r)*k2 - exp(Fe2)*(FC2+tau2); z(24) = exp(TCe3) - exp(r)*k3 - exp(Fe3)*(FC3+tau3); % Total cost functions for heat energy z(25) = exp(TCh1) - exp(Fh1)*(FC1+tau1); 108