{ "ANCILLARIES": { "hL": { "A": [ 158.6608242103283, -389.0136824392045, 50.99975969412593, -3.2858711365443125, 0.12542332352298904, -0.002855870202259457, 3.588431902477362e-05, -1.9236202945004704e-07 ], "B": [ 1, -0.02572152231429913 ], "Tmax": 38.24, "Tmin": 18.724, "_note": "coefficients are in increasing order; input in K, output in J/mol; value is enthalpy minus hs_anchor enthalpy", "max_abs_error": 2.381563474251834, "max_abs_error_units": "J/mol", "type": "rational_polynomial" }, "hLV": { "A": [ -2547.293378977417, 1004.6233804638466, -119.95358088173657, 7.685537241282279, -0.2943967989435911, 0.006719812065173083, -8.457947124686578e-05, 4.5401135145306485e-07 ], "B": [ 1, -0.025693794104598495 ], "Tmax": 38.24, "Tmin": 18.724, "_note": "coefficients are in increasing order; input in K, output in J/mol; value is enthalpy minus hs_anchor enthalpy", "max_abs_error": 5.157773752989073, "max_abs_error_units": "J/mol", "type": "rational_polynomial" }, "pS": { "T_r": 38.34, "Tmax": 38.33999999999991, "Tmin": 18.72400000000001, "description": "p' = pc*exp(Tc/T*sum(n_i*theta^t_i))", "max_abserror_percentage": 0.004632576840690739, "n": [ -6.007823964368566, 4.54319186236637, -2.68220724969741, 0.42739425880451554, -0.8211897181703741, 0.6219573673883285 ], "reducing_value": 1679600.0, "t": [ 1.012, 1.516, 1.678, 3.29, 6.442, 8.917 ], "type": "pL", "using_tau_r": true }, "rhoL": { "T_r": 38.34, "Tmax": 38.33999999999991, "Tmin": 18.72400000000001, "description": "rho' = rhoc*(1+sum(n_i*theta^t_i))", "max_abserror_percentage": 0.052780414966924205, "n": [ 5.337218502231972, -37.730569203923736, 56.189484760644554, -21.538412148225337, -0.63373056265043, 48.064086849218086 ], "reducing_value": 17230.0, "t": [ 0.558, 0.941, 0.992, 1.011, 4.008, 13.336 ], "type": "rhoLnoexp", "using_tau_r": false }, "rhoV": { "T_r": 38.34, "Tmax": 38.33999999999991, "Tmin": 18.72400000000001, "description": "rho'' = rhoc*exp(Tc/T*sum(n_i*theta^t_i))", "max_abserror_percentage": 0.07653504228355423, "n": [ -1.9157967271957959, -2.9712091246582273, 237.43334304651742, -236.01792469812253, 4664.0401630139195, -8793.218613656329 ], "reducing_value": 17230.0, "t": [ 0.494, 0.62, 1.003, 1.005, 19.21, 19.85 ], "type": "rhoV", "using_tau_r": true }, "sL": { "A": [ -31.58451097279227, -4.948731443869824, 0.9536610770841465, -0.06772978867986558, 0.0026976379399502046, -6.298662333989642e-05, 8.053120139911795e-07, -4.370542169962677e-09 ], "B": [ 1, -0.02572848658142137 ], "Tmax": 38.24, "Tmin": 18.724, "_note": "coefficients are in increasing order; 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T = c[0]*rho^3 + c[1]*rho^2 + c[2]*rho + c[3] with rho in mol/m^3 and T in K", "cL": [ 0.0, 0.0, -1.0134264329467987e-06, 38.35746133743967 ], "cV": [ 0.0, 0.0, 1.0488475637710707e-06, 38.32192835647623 ], "rhomolar_max": 17306.741226317383, "rhomolar_min": 17155.850438196074 }, "gas_constant": 8.3144621, "gas_constant_units": "J/mol/K", "molar_mass": 0.0040282, "molar_mass_units": "kg/mol", "p_max": 2000000000, "p_max_units": "Pa", "pseudo_pure": false } ], "INFO": { "ALIASES": [ "paradeuterium", "PARADEUTERIUM" ], "CAS": "7782-39-0p", "NAME": "ParaDeuterium", "REFPROP_NAME": "N/A" }, "STATES": { "critical": { "T": 38.34, "T_units": "K", "hmolar": 831.4177464596459, "hmolar_units": "J/mol", "p": 1679600.0, "p_units": "Pa", "rhomolar": 17230.0, "rhomolar_units": "mol/m^3", "smolar": 23.641993534657136, "smolar_units": "J/mol/K" }, "triple_liquid": { "T": 18.724, "T_units": "K", "hmolar": -122.53460765144584, "hmolar_units": "J/mol", "p": 17189.10197754122, "p_units": "Pa", "rhomolar": 43350.920890357986, "rhomolar_units": "mol/m^3", "smolar": -5.695199783459216, "smolar_units": "J/mol/K" }, "triple_vapor": { "T": 18.724, "T_units": "K", "hmolar": 1152.8345846011987, "hmolar_units": "J/mol", "p": 17189.107271516146, "p_units": "Pa", "rhomolar": 112.95643906009649, "rhomolar_units": "mol/m^3", "smolar": 62.41893957497788, "smolar_units": "J/mol/K" } } }