CoolProp函数输入表
2024-05-09 13:30:10
从官网查的CoolProp函数使用时候的输入参数表,记录并翻译方便使用。
官网链接:CoolProp函数输入表 ;函数输入表在页面最下方。
如何在excel中使用CoolProp:如何在excel中使用CoolProp数据库
首先CoolProp查找工质物性的方式(excel)如下:
记录与翻译的就是图里的D、P、T。
Python的方法同excel类似。
表格翻译更新中。。。
| Parameter 参数 | Units 单位 | Input/Output 输入/输出 | Description 描述 |
|---|---|---|---|
| DELTA, Delta | - | IO | Reduced density (rho/rhoc) |
| DMOLAR, Dmolar | mol/m^3 | IO | Molar density |
| D, DMASS, Dmass | kg/m^3 | IO | Mass density |
| HMOLAR, Hmolar | J/mol | IO | Molar specific enthalpy |
| H, HMASS, Hmass | J/kg | IO | Mass specific enthalpy |
| P | Pa | IO | Pressure |
| Q | mol/mol | IO | Mass vapor quality |
| SMOLAR, Smolar | J/mol/K | IO | Molar specific entropy |
| S, SMASS, Smass | J/kg/K | IO | Mass specific entropy |
| TAU, Tau | - | IO | Reciprocal reduced temperature (Tc/T) |
| T | K | IO | Temperature |
| UMOLAR, Umolar | J/mol | IO | Molar specific internal energy |
| U, UMASS, Umass | J/kg | IO | Mass specific internal energy |
| ACENTRIC, acentric | - | O | Acentric factor |
| ALPHA0, alpha0 | - | O | Ideal Helmholtz energy |
| ALPHAR, alphar | - | O | Residual Helmholtz energy |
| A, SPEED_OF_SOUND, speed_of_sound | m/s | O | Speed of sound |
| BVIRIAL, Bvirial | - | O | Second virial coefficient |
| CONDUCTIVITY, L, conductivity | W/m/K | O | Thermal conductivity |
| CP0MASS, Cp0mass | J/kg/K | O | Ideal gas mass specific constant pressure specific heat |
| CP0MOLAR, Cp0molar | J/mol/K | O | Ideal gas molar specific constant pressure specific heat |
| CPMOLAR, Cpmolar | J/mol/K | O | Molar specific constant pressure specific heat |
| CVIRIAL, Cvirial | - | O | Third virial coefficient |
| CVMASS, Cvmass,O | J/kg/K | O | Mass specific constant volume specific heat |
| CVMOLAR, Cvmolar | J/mol/K | O | Molar specific constant volume specific heat |
| C, CPMASS, Cpmass | J/kg/K | O | Mass specific constant pressure specific heat |
| DALPHA0_DDELTA_CONSTTAU, dalpha0_ddelta_consttau | - | O | Derivative of ideal Helmholtz energy with delta |
| DALPHA0_DTAU_CONSTDELTA, dalpha0_dtau_constdelta | - | O | Derivative of ideal Helmholtz energy with tau |
| DALPHAR_DDELTA_CONSTTAU, dalphar_ddelta_consttau | - | O | Derivative of residual Helmholtz energy with delta |
| DALPHAR_DTAU_CONSTDELTA, dalphar_dtau_constdelta | - | O | Derivative of residual Helmholtz energy with tau |
| DBVIRIAL_DT, dBvirial_dT | - | O | Derivative of second virial coefficient with respect to T |
| DCVIRIAL_DT, dCvirial_dT | - | O | Derivative of third virial coefficient with respect to T |
| DIPOLE_MOMENT, dipole_moment | C m | O | Dipole moment |
| FH | O | Flammability hazard | |
| FRACTION_MAX, fraction_max | - | O | Fraction (mole, mass, volume) maximum value for incompressible solutions |
| FRACTION_MIN, fraction_min | - | O | Fraction (mole, mass, volume) minimum value for incompressible solutions |
| FUNDAMENTAL_DERIVATIVE_OF_GAS_DYNAMICS, fundamental_derivative_of_gas_dynamics | - | O | Fundamental derivative of gas dynamics |
| GAS_CONSTANT, gas_constant | J/mol/K | O | Molar gas constant |
| GMOLAR_RESIDUAL, Gmolar_residual | J/mol/K | O | Residual molar Gibbs energy |
| GMOLAR, Gmolar | J/mol | O | Molar specific Gibbs energy |
| GWP100 | - | O | 100-year global warming potential |
| GWP20 | - | O | 20-year global warming potential |
| GWP500 | - | O | 500-year global warming potential |
| G, GMASS, Gmass | J/kg | O | Mass specific Gibbs energy |
| HELMHOLTZMASS, Helmholtzmass | J/kg | O | Mass specific Helmholtz energy |
| HELMHOLTZMOLAR, Helmholtzmolar | J/mol | O | Molar specific Helmholtz energy |
| HH | - | O | Health hazard |
| HMOLAR_RESIDUAL, Hmolar_residual | J/mol/K | O | Residual molar enthalpy |
| ISENTROPIC_EXPANSION_COEFFICIENT, isentropic_expansion_coefficient | - | O | Isentropic expansion coefficient |
| ISOBARIC_EXPANSION_COEFFICIENT, isobaric_expansion_coefficient | 1/K | O | Isobaric expansion coefficient |
| ISOTHERMAL_COMPRESSIBILITY, isothermal_compressibility | 1/Pa | O | Isothermal compressibility |
| I, SURFACE_TENSION, surface_tension | N/m | O | Surface tension |
| M, MOLARMASS, MOLAR_MASS, MOLEMASS, molar_mass, molarmass, molemass | kg/mol | O | Molar mass |
| ODP | - | O | Ozone depletion potential |
| PCRIT, P_CRITICAL, Pcrit, p_critical, pcrit | Pa | O | Pressure at the critical point |
| PHASE, Phase | O | Phase index as a float | |
| PH | - | O | Physical hazard |
| PIP | - | O | Phase identification parameter |
| PMAX, P_MAX, P_max, pmax | Pa | O | Maximum pressure limit |
| PMIN, P_MIN, P_min, pmin | Pa | O | Minimum pressure limit |
| PRANDTL, Prandtl | - | O | Prandtl number |
| PTRIPLE, P_TRIPLE, p_triple, ptriple | Pa | O | Pressure at the triple point (pure only) |
| P_REDUCING, p_reducing | Pa | O | Pressure at the reducing point |
| RHOCRIT, RHOMASS_CRITICAL, rhocrit, rhomass_critical | kg/m^3 | O | Mass density at critical point |
| RHOMASS_REDUCING, rhomass_reducing | kg/m^3 | O | Mass density at reducing point |
| RHOMOLAR_CRITICAL, rhomolar_critical | mol/m^3 | O | Molar density at critical point |
| RHOMOLAR_REDUCING, rhomolar_reducing | mol/m^3 | O | Molar density at reducing point |
| SMOLAR_RESIDUAL, Smolar_residual | J/mol/K | O | Residual molar entropy (sr/R = s(T,rho) - s^0(T,rho)) |
| TCRIT, T_CRITICAL, T_critical, Tcrit | K | O | Temperature at the critical point |
| TMAX, T_MAX, T_max, Tmax | K | O | Maximum temperature limit |
| TMIN, T_MIN, T_min, Tmin | K | O | Minimum temperature limit |
| TTRIPLE, T_TRIPLE, T_triple, Ttriple | K | O | Temperature at the triple point |
| T_FREEZE, T_freeze | K | O | Freezing temperature for incompressible solutions |
| T_REDUCING, T_reducing | K | O | Temperature at the reducing point |
| V, VISCOSITY, viscosity | Pa s | O | Viscosity |
| Z | - | O | Compressibility factor |
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