* Definition of lim3deg results alternative specification

* Control statements

TATM.up(t)  = 3 ;


solve CO2 maximizing UTILITY using nlp ;
solve CO2 maximizing UTILITY using nlp ;
solve CO2 maximizing UTILITY using nlp ;

* Results

Parameters
Year(t)         Date
lim3deg_y(t)
lim3deg_cpc(t)
lim3deg_s(t)
lim3deg_indem(t)
lim3deg_sigma(t)
lim3deg_tatm(t)
lim3deg_mat(t)
lim3deg_tax(t)
lim3deg_ri(t)
lim3deg_rr(t)
lim3deg_al(t)
lim3deg_forcoth(t)
lim3deg_l(t)
lim3deg_etree(t)
lim3deg_yy(t)
lim3deg_cc(t)
lim3deg_miu(t)
lim3deg_wem(t)
lim3deg_ri(t)
lim3deg_dam(t)
lim3deg_abate(t)
lim3deg_mcemis(t)
lim3deg_utility   ;

Year(t)         = 2005 +10*(ord(t)-1);
lim3deg_y(t)=y.l(t);
lim3deg_cpc(t)=cpc.l(t);
lim3deg_s(t)=s.l(t)     ;
lim3deg_indem(t)= e.l(t)-etree(t);;
lim3deg_sigma(t)=sigma(t) ;
lim3deg_tatm(t)=tatm.l(t)  ;
lim3deg_mat(t)=mat.l(t)     ;
lim3deg_tax(t)=-1*ee.m(t)*1000/(kk.m(t)+.0000001)       ;
lim3deg_ri(t)=ri.l(t);
lim3deg_rr(t)=rr(t)   ;
lim3deg_al(t)=al(t)    ;
lim3deg_forcoth(t)=forcoth(t);
lim3deg_l(t)=l(t);
lim3deg_etree(t)=etree(t);
lim3deg_yy(t)=yy.m(t)     ;
lim3deg_cc(t)=cc.m(t)      ;
lim3deg_miu(t)=miu.l(t)     ;
lim3deg_wem(t)= e.l(t);
lim3deg_ri(t)=ri.l(t)         ;
lim3deg_dam(t)= damages.l(t);
lim3deg_abate(t) = abatecost.l(t);
lim3deg_utility=utility.l        ;
lim3deg_mcemis(t)= expcost2*cost1(t)*miu.l(t)**(expcost2-1)/sigma(t)*1000;