To get a thermodynamic property calculated from 2 specified inputs for a given gas: Plot of H2 equilibrium Gas at 172 kPa Press.
(bold black: you enter.    colored: calculated)
1st input step size: 0 2nd input step size: 0.1
  1st input 1st input 2nd input 2nd input Output 2nd input Output Output:
Gas parameter Press. parameter Temp. Property Desired Desired Density
Index Gas Index kPa Index K Index Phase Units g/cm^3
12 H2 equilibrium 1 172 2 18 3 0 2 0.07336
12 H2 equilibrium 1 172 2 18.1 3 0 2 0.07326
12 H2 equilibrium 1 172 2 18.2 3 0 2 0.07316
12 H2 equilibrium 1 172 2 18.3 3 0 2 0.07306
12 H2 equilibrium 1 172 2 18.4 3 0 2 0.07295
12 H2 equilibrium 1 172 2 18.5 3 0 2 0.07285
12 H2 equilibrium 1 172 2 18.6 3 0 2 0.07275
12 H2 equilibrium 1 172 2 18.7 3 0 2 0.07264
12 H2 equilibrium 1 172 2 18.8 3 0 2 0.07254
12 H2 equilibrium 1 172 2 18.9 3 0 2 0.07243
12 H2 equilibrium 1 172 2 19 3 0 2 0.07232
12 H2 equilibrium 1 172 2 19.1 3 0 2 0.07222
12 H2 equilibrium 1 172 2 19.2 3 0 2 0.07211
12 H2 equilibrium 1 172 2 19.3 3 0 2 0.07200 Pressure conversions:
12 H2 equilibrium 1 172 2 19.4 3 0 2 0.07189 Pa =
12 H2 equilibrium 1 172 2 19.5 3 0 2 0.07178 kPa N/m^2 psia atm in. H20 cm-Hg lb/ft^2 Torr psig
12 H2 equilibrium 1 172 2 19.6 3 0 2 0.07167 185.00 185000 26.84 1.83 742.74 138.77 3864.65 1387.69 12.14
12 H2 equilibrium 1 172 2 19.7 3 0 2 0.07156 172.00 172000 24.95 1.70 690.58 129.02 3593.08 1290.17 10.25
12 H2 equilibrium 1 172 2 19.8 3 0 2 0.07144 172.32 172322.3 25.00 1.70 691.87 129.26 3599.81 1292.59 10.30
12 H2 equilibrium 1 172 2 19.9 3 0 2 0.07133 101.33 101325.5 14.70 1.00 406.82 76.00 2116.69 760.04 0.00
12 H2 equilibrium 1 172 2 20 3 0 2 0.07122 101.33 101330.5 14.70 1.00 406.82 76.01 2116.79 760.08 0.00
12 H2 equilibrium 1 172 2 20.1 3 0 2 0.07110 101.34 101338.5 14.70 1.00 406.85 76.00 2116.96 760.00 0.00
12 H2 equilibrium 1 172 2 20.2 3 0 2 0.07099 101.32 101319.8 14.70 1.00 406.80 76.00 2116.68 760.00 0.00
12 H2 equilibrium 1 172 2 20.3 3 0 2 0.07087 101.34 101343.9 14.70 1.00 406.87 76.00 2117.07 760.04 0.00
Values at 24.95324 psia    (= 172 kPa), and 18 K
Gas/Fluid Constant Input Output <--------------- Units Index --------------->
Index Fluid Index Constants Index Inputs ID 1 2 3 4 Value
2 Argon 1 Pressure Upper Limit 120000 1 Press. 1 Pressure Pa kPa kPa psi 172.0000 kPa
3 Isobutane 2 Temp upper limit 5000 2 Temp. 2 Temperature K K K R 18.0000 K
7 Deuterium 3 temp lower limit 13.8 3 Density 3 Density kg/m^3 g/cm^3 mol/liter lbm/ft^3 0.0734 g/cm^3
11 Helium 4 gas constant R 8.31434 4 Entropy 4 Entropy J/kg-K J/g-K J/mol-K BTU/lb-R 1.1160 J/g-K
12 H2 equilibrium 5 critical pressure 1283.8 5 Enthalpy 5 Enthalpy J/kg J/g J/mol BTU/lb -301.7211 J/g
13 H2 normal 6 critical temp 32.938 6 Internal Energy 6 internal energy J/kg J/g J/mol BTU/lb -304.0657 J/g
14 H2 ortho 7 critical density 15.556 7 Quality (vapor mass fraction) 7 dP/dD Pa-m^3/kg kPa-m^3/kg kPa-L/mol psi-ft^3/lb 895.3686 kPa-m^3/kg
15 H2 para 8 triple point pressure 7.042088 8 Melting Line 8 dP/dT Pa/K kPa/K kPa/K psi/R 898.7500 kPa/K
20 Neon 9 triple point temp (m.p.) 13.8 9 2-Phase 9 Cv J/kg-K J/g-K J/mol-K BTU/lb-R 5.4266 J/g-K
22 N2 10 triple point vapor density 0.062382 10 Saturation 10 Cp J/kg-K J/g-K J/mol-K BTU/lb-R 8.4441 J/g-K
25 O2 11 triple point liquid density 38.21425 11 Gamma  -  -  -  - 1.5560  -
27 Water 12 molecular weight 2.01594 12 Alpha  -  -  -  - 0.2463  -
28 Xenon 13 pressure of the standard state 101.325 13 Gruneisen  -  -  -  - 2.2576  -
17 Krypton 14 accentric factor -0.21844 14 Kt  -  -  -  - 0.0000  -
15 Sound Speed m/s m/s m/s ft/s 1180.3520 m/s
16 JT Coeff K/Pa K/kPa K/kPa R/psi -0.0012 K/kPa
Units Phase 17 dH/dV *V@const P J/kg J/g J/mol BTU/lb 617.1200 J/g
Index Units Index Phases 18 dH/dT @const dens  -  -  -  - 17.6780  -
1 SI 0 Single Phase 19 dS/dT @const dens  -  -  -  - 0.6078  -
2 Mixed SI & CGS 1 Liquid Phase (use with saturation input) 20 Z compressibility factor 1/Pa 1/kPa 1/kPa 1/psi 0.0316 1/kPa
3 Mixed SI & Molar 2 Vapor Phase (use with saturation input) 21 Viscosity Pa-s uPa-s uPa-s lb/ft-s 16.7841 uPa-s
4 Engineering 22 Conductivity W/m-K W/m-K W/m-K BTU/hr-ft-R 0.1036 W/m-K
23 Thermal Diffusivity m^2/s cm^2/s cm^2/s ft^2/s 0.0017 cm^2/s
Temperature Conversions: 24 Prandtl Number  -  -  -  - 1.3685  -
Kelvin Centigrade Farenheit 25 Surface Tension N/m N/m N/m N/m 0.0000 N/m
161 -112.15 -169.87 26 Dielectric Constant  -  -  -  - 1.2387  -
87.15 -186 -302.8 27 PV/RT  -  -  -  - 0.0316  -
273.15 0 32 28 dP/dT @ const sat Pa/K kPa/K kPa/K psi/R 0.0000 kPa/K
29 latent heat J/kg J/g J/mol BTU/lb 0.0000 J/g
30 Fugacity/Pressure  -  -  -  - 1.0000  -