H2O NH3 CO2 HNCO urea(g) cya(g) HCN(g) N2 DCSLMAX=20 urea(l) 1320 # species name and density in kg/m3 HNCO(l) 1140 NH3(l) 700 biu(l) 1470 triu(l) 1547 H2O(l) 998 urea(aq) 1100 NH3(aq) 700 HNCO(aq) 1140 ammn(s) 2220 ammd(s) 1573 melem(s) 1717 H2NCN(s) 1140 NH(x) 1140 urea(s) 1320 biu(s) 1470 triu(s) 1547 cya(s) 2500 3 ammd(s) > 2 ammn(s) + H2NCN(s) + 2 CO2 ammd(s) 1 A/cm_units = 1e10 Ea/kJ_mol = 165.67 ammn(s) > HNCO + 2 H2NCN(s) A/cm_units = 5.0e9 Ea/kJ_mol = 165.67 ammn(s) + 3 H2NCN(s) > melem(s) + H2O(l) + NH3 A/cm_units = 8.0e13 Ea/kJ_mol = 140.67 melem(s) > 6 HCN(g) + 2 N2 A/cm_units = 6.0e6 Ea/kJ_mol = 165.67 H2NCN(s) > NH(x) + HCN(g) A/cm_units = 2.0e5 Ea/kJ_mol = 105.67 3 NH(x) > NH3 + N2 A/cm_units = 1.0e5 Ea/kJ_mol = 50.67 urea(l) + HNCO(l) = biu(s) A/SIunits = 1e-4 Ea/kJ_mol = 0 urea(l) + HNCO(l) = biu(l) A/SIunits = 1e-4 Ea/kJ_mol = 0 biu(l) + HNCO(l) = triu(s) A/SIunits = 1e-4 Ea/kJ_mol = 0 triu(s) > cya(s) + NH3 A/SIunits = 1.2e2 Ea/kJ_mol = 45 triu(s) > ammd(s) + H2O A/SIunits = 0.3e2 Ea/kJ_mol = 45 cya(s) > cya(g) A/SIunits = 3e4 Ea/kJ_mol = 141.3 urea(l) + urea(l) > biu(l) + NH3 A/SIunits = 3.5e0 Ea/kJ_mol = 99 biu(l) + urea(l) > triu(s) + NH3 A/SIunits = 2e2 Ea/kJ_mol = 116.5 # Phase transitions H2O = H2O(l) A/SIunits = 0.086 beta=0.5 NH3 = NH3(l) A/SIunits = 0.088 beta=0.5 NH3 = NH3(aq) A/SIunits = 0.088 beta=0.5 NH3(aq) = NH3(l) A/SIunits = 0.088 beta=0.5 urea(g) = urea(l) A/SIunits = 0.047 beta=0.5 urea(aq) = urea(s) A/SIunits = 0.047 beta=0.5 urea(aq) = urea(l) A/SIunits = 0.047 beta=0.5 HNCO = HNCO(l) A/SIunits = 0.055 beta=0.5 HNCO = HNCO(aq) A/SIunits = 0.055 beta=0.5 HNCO(aq) = HNCO(l) A/SIunits = 0.055 beta=0.5 urea(l) = urea(s) A/SIunits = 1e-6 biu(l) = biu(s) A/SIunits = 1e-6