{ "ALIASES": [], "ANCILLARIES": { "hL": { "A": [ 112039.42940139711, -4752.361623482553, 68.17737901434195, -0.5192424267043256, 0.0023536723400851283, -6.381016506972813e-06, 9.578703566877131e-09, -6.147248729219457e-12 ], "B": [ 1, -0.0033926803378450353 ], "Tmax": 292.93, "Tmin": 173.10000000000002, "_note": "coefficients are in increasing order; input in K, output in J/mol; value is enthalpy minus hs_anchor enthalpy", "max_abs_error": 144.10895662959047, "max_abs_error_units": "J/mol", "type": "rational_polynomial" }, "hLV": { "A": [ -375545.01649866253, 12790.164113478011, -177.52496147948284, 1.3514317732944428, -0.0061413241485145376, 1.66765490198031e-05, -2.5068786914174674e-08, 1.6108228384600222e-11 ], "B": [ 1, -0.003389501681481115 ], "Tmax": 292.93, "Tmin": 173.10000000000002, "_note": "coefficients are in increasing order; input in K, output in J/mol; value is enthalpy minus hs_anchor enthalpy", "max_abs_error": 301.87667912749475, "max_abs_error_units": "J/mol", "type": "rational_polynomial" }, "pL": { "T_r": 293.03, "Tmax": 293.0299999999994, "Tmin": 173.1, "description": "p' = pc*exp(Tc/T*sum(n_i*theta^t_i))", "max_abserror_percentage": 0.016719676954091156, "n": [ -11.470078446321281, 4.672163421603924, -10.48503079726129, -2.397369737948997, 9.993759307098879, -13131.027093052013 ], "reducing_value": 3048000.0, "t": [ 1.007, 1.041, 2.032, 4.012, 1.929, 18.295 ], "type": "pL", "using_tau_r": true }, "pV": { "T_r": 293.03, "Tmax": 293.0299999999994, "Tmin": 173.1, "description": "p'' = pc*exp(Tc/T*sum(n_i*theta^t_i))", "max_abserror_percentage": 0.01063579632551992, "n": [ -7.187037699453901, 1.1679020933888262, -6.070415204530583, 4.623641136795351, -8.973143537957382, 135.12331037950565 ], "reducing_value": 3048000.0, "t": [ 0.994, 1.389, 3.286, 3.827, 6.643, 12.512 ], "type": "pV", "using_tau_r": true }, "rhoL": { "T_r": 293.03, "Tmax": 293.0299999999994, "Tmin": 173.1, "description": "rho' = rhoc*(1+sum(n_i*theta^t_i))", "max_abserror_percentage": 0.5536401970378968, "n": [ 9.032000509756, -9.139042989359975, 4.35812391046927, -10.172985836578453, 3844.9059901716128, -8268.03247405404 ], "reducing_value": 4444.0, "t": [ 0.481, 0.603, 1.19, 3.414, 9.072, 10.136 ], "type": "rhoLnoexp", "using_tau_r": false }, "rhoV": { "T_r": 293.03, "Tmax": 293.0299999999994, "Tmin": 173.1, "description": "rho'' = rhoc*exp(Tc/T*sum(n_i*theta^t_i))", "max_abserror_percentage": 0.44326848370010996, "n": [ -3.2238759240828108, -2.882263657854913, 8.52221952834173, -9.783624985988958, -19811843.680679295, 33374328.47668358 ], "reducing_value": 4444.0, "t": [ 0.42, 1.175, 2.321, 2.482, 19.211, 19.828 ], "type": "rhoV", "using_tau_r": true }, "sL": { "A": [ 158.87729257821104, -11.892629879765396, 0.19159581538459847, -0.0015254281868117554, 7.0650340320720655e-06, -1.939808024497516e-08, 2.936699887657816e-11, -1.8956736243090208e-14 ], "B": [ 1, -0.0033930743020799785 ], "Tmax": 292.93, "Tmin": 173.10000000000002, "_note": "coefficients are in increasing order; input in K, output in J/mol/K; value is entropy minus hs_anchor entropy", "max_abs_error": 0.48518997567529354, "max_abs_error_units": "J/mol/K", "type": "rational_polynomial" }, "sLV": { "A": [ -451.1128238314437, 25.792526814583475, -0.424379534579573, 0.0035088198043598923, -1.6735998832050027e-05, 4.6917893394641404e-08, -7.213365768548738e-11, 4.71224977668853e-14 ], "B": [ 1, -0.0033899205819698727 ], "Tmax": 292.93, "Tmin": 173.10000000000002, "_note": "coefficients are in increasing order; input in K, output in J/mol/K; value is entropy minus hs_anchor entropy", "max_abs_error": 1.0176984739322918, "max_abs_error_units": "J/mol/K", "type": "rational_polynomial" }, "surface_tension": { "BibTeX": "Mulero-JPCRD-2012", "Tc": 293.03, "a": [ 0.047593, -0.0073402 ], "description": "sigma = sum(a_i*(1-T/Tc)^n_i)", "n": [ 1.2666, 1.9892 ] } }, "CAS": "76-16-4", "ENVIRONMENTAL": { "ASHRAE34": "A1", "FH": 0, "GWP100": -1.0, "GWP20": -1.0, "GWP500": -1.0, "HH": 1, "Name": "R116", "ODP": -1.0, "PH": 1 }, "EOS": [ { "BibTeX_CP0": "", "BibTeX_EOS": "Lemmon-JCED-2006", "STATES": { "hs_anchor": { "T": 322.33299999999997, "T_units": "K", "hmolar": 38157.32283066279, "hmolar_units": "J/mol", "p": 5010710.372419712, "p_units": "Pa", "rhomolar": 3999.6, "rhomolar_units": "mol/m^3", "smolar": 171.73459429353298, "smolar_units": "J/mol/K" }, "reducing": { "T": 293.03, "T_units": "K", "hmolar": 33718.4664168744, "hmolar_units": "J/mol", "p": 3048000, "p_units": "Pa", "rhomolar": 4444, "rhomolar_units": "mol/m^3", "smolar": 158.8039431704873, "smolar_units": "J/mol/K" }, "sat_min_liquid": { "T": 173.10000000000002, "T_units": "K", "hmolar": 13033.143739256086, "hmolar_units": "J/mol", "p": 26083.734153444053, "p_units": "Pa", "rhomolar": 12304.014023330641, "rhomolar_units": "mol/m^3", "smolar": 73.32450383892952, "smolar_units": "J/mol/K" }, "sat_min_vapor": { "T": 173.10000000000002, "T_units": "K", "hmolar": 30407.601060096942, "hmolar_units": "J/mol", "p": 26083.734153540845, "p_units": "Pa", "rhomolar": 18.4372956441027, "rhomolar_units": "mol/m^3", "smolar": 173.69687426558696, "smolar_units": "J/mol/K" } }, "T_max": 425, "T_max_units": "K", "Ttriple": 173.1, "Ttriple_units": "K", "accentric": 0.2566, "accentric_units": "-", "alpha0": [ { "a1": -10.7088650331, "a2": 8.9148979056, "type": "IdealGasHelmholtzLead" }, { "a": 3, "type": "IdealGasHelmholtzLogTau" }, { "n": [ 2.4818, 7.0622, 7.9951 ], "t": [ 0.6483977749718459, 2.122649558065727, 5.016551206361124 ], "type": "IdealGasHelmholtzPlanckEinstein" } ], "alphar": [ { "d": [ 1, 1, 1, 2, 3, 7, 2, 5, 1, 4, 3, 4 ], "l": [ 0, 0, 0, 0, 0, 0, 1, 1, 2, 2, 3, 3 ], "n": [ 1.1632, -2.8123, 0.77202, -0.14331, 0.10227, 0.00024629, 0.30893, -0.028499, -0.30343, -0.068793, -0.027218, 0.010665 ], "t": [ 0.25, 1.125, 1.5, 1.375, 0.25, 0.875, 0.625, 1.75, 3.625, 3.625, 14.5, 12 ], "type": "ResidualHelmholtzPower" } ], "critical_region_splines": { "T_max": 293.03000000000003, "T_min": 293.02870328483243, "_note": "Coefficients for the critical cubic spline. 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": [ 1.5572847523698138e-09, -2.1246768945374408e-05, 0.09657619729065436, 146.77536264781335 ], "cV": [ -2.245407664058467e-09, 2.9392570484872764e-05, -0.12820658247075012, 479.3707443682296 ], "rhomolar_max": 4501.228807035586, "rhomolar_min": 4388.313768041884 }, "gas_constant": 8.314472, "gas_constant_units": "J/mol/K", "molar_mass": 0.13801182, "molar_mass_units": "kg/mol", "p_max": 50000000, "p_max_units": "Pa", "pseudo_pure": false } ], "NAME": "R116", "REFPROP_NAME": "R116", "STATES": { "critical": { "T": 293.03, "T_units": "K", "p": 3048000.0, "p_units": "Pa", "rhomolar": 4444.0, "rhomolar_units": "mol/m^3" }, "triple_liquid": { "T": 173.10000000000002, "T_units": "K", "hmolar": 13033.143739256086, "hmolar_units": "J/mol", "p": 26083.734153444053, "p_units": "Pa", "rhomolar": 12304.014023330641, "rhomolar_units": "mol/m^3", "smolar": 73.32450383892952, "smolar_units": "J/mol/K" }, "triple_vapor": { "T": 173.10000000000002, "T_units": "K", "hmolar": 30407.601060096942, "hmolar_units": "J/mol", "p": 26083.734153540845, "p_units": "Pa", "rhomolar": 18.4372956441027, "rhomolar_units": "mol/m^3", "smolar": 173.69687426558696, "smolar_units": "J/mol/K" } }, "TRANSPORT": { "conductivity": { "BibTeX": "Huber-IECR-2003", "f_int": { "T_reducing": 1.0, "T_reducing_units": "K", "a": [ 0.00132, 0.0 ], "t": [ 0, 1 ] }, "psi": { "a": [ 1.1804, -0.0539975 ], "rhomolar_reducing": 4518.0, "rhomolar_reducing_units": "mol/m^3", "t": [ 0, 1 ] }, "q_D": 1999999999.9999998, "q_D_units": "m", "reference_fluid": "R134a", "type": "ECS" }, "viscosity": { "BibTeX": "Huber-IECR-2003", "epsilon_over_k": 226.16, "epsilon_over_k_units": "K", "psi": { "a": [ 1.21996, -0.0647835, 0.0 ], "rhomolar_reducing": 4518.0, "rhomolar_reducing_units": "mol/m^3", "t": [ 0, 1, 2 ] }, "reference_fluid": "R134a", "sigma_eta": 5.249e-10, "sigma_eta_units": "m", "type": "ECS" } } }