10-07-2015, 01:27 PM
Hi all,
Please find my implementation of the Steam Table for the HP-Prime
It is based on the version of :
X Steam, Thermodynamic properties of water and steam.
by Magnus Holmgren
30 Jan 2006 (Updated 01 Aug 2007)
Water properties A complete IAPWS IF-97 standard.
It is still in progress! Next step is to make a nice App.
All functions are implemented, except he transport functions!
Small help:
Water and steam properties according to IAPWS IF-97.
This Steam Table provides accurate steam and water properties from 0 - 1000 bar and from 0 - 2000 deg C according to the standard IAPWS IF-97.
For accuracy of the functions in different regions see IF-97 (http://www.iapws.org)
Nomenclature
T Temperature (K)
t Temperature (C)
p Pressure (bar)
h Enthalpy (kJ/kg)
v Specific volume (m3/kg)
rho Density (kg/m3)
s Specific entropy (kJ/kgK)
u Specific internal energy (kJ/kgK)
Cp Specific isobaric heat capacity (kJ/kgK)
Cv Specific isochoric heat capacity (kJ/kgK)
w Speed of sound (-)
x Vapour fraction (-)
vx Vapour Volume Fraction (-)
Valid Steam table functions.
******* Temperature of these functions is T [K] *************
Temperature
Tsat_p Saturation temperature
T_ph Temperture as a function of pressure and enthalpy
T_ps Temperture as a function of pressure and entropy
T_hs Temperture as a function of enthalpy and entropy
Pressure
psat_T Saturation pressure
p_hs Pressure as a function of h and s.
p_hrho Pressure as a function of h and rho
Enthalpy
hV_p Saturated vapour enthalpy
hL_p Saturated liquid enthalpy
hV_T Saturated vapour enthalpy
hL_T Saturated liquid enthalpy
h_pT Entalpy as a function of pressure and temperature.
h_ps Entalpy as a function of pressure and entropy.
h_px Entalpy as a function of pressure and vapour fraction.
h_prho Entalpy as a function of pressure and density.
h_Tx Entalpy as a function of temperature and vapour fraction
Specific volume
vV_p Saturated vapour volume
vL_p Saturated liquid volume
vV_T Saturated vapour volume
vL_T Saturated liquid volume
v_pT Specific volume as a function of pressure and temperature.
v_ph Specific volume as a function of pressure and enthalpy
v_ps Specific volume as a function of pressure and entropy.
Density
rhoV_p Saturated vapour density
rhoL_p Saturated liquid density
rhoV_T Saturated vapour density
rhoL_T Saturated liquid density
rho_pT Density as a function of pressure and temperature.
rho_ph Density as a function of pressure and enthalpy
rho_ps Density as a function of pressure and entropy.
Specific entropy
sV_p Saturated vapour entropy
sL_p Saturated liquid entropy
sV_T Saturated vapour entropy
sL_T Saturated liquid entropy
s_pT Specific entropy as a function of pressure and temperature
s_ph Specific entropy as a function of pressure and enthalpy
Specific internal energy
uV_p Saturated vapour internal energy
uL_p Saturated liquid internal energy
uV_T Saturated vapour internal energy
uL_T Saturated liquid internal energy
u_pT Specific internal energy as a function of pressure and temperature.
u_ph Specific internal energy as a function of pressure and enthalpy
u_ps Specific internal energy as a function of pressure and entropy.
Specific isobaric heat capacity
CpV_p Saturated vapour heat capacity
CpL_p Saturated liquid heat capacity
CpV_T Saturated vapour heat capacity
CpL_T Saturated liquid heat capacity
Cp_pT Specific isobaric heat capacity as a function of pressure and temperature.
Cp_ph Specific isobaric heat capacity as a function of pressure and enthalpy
Cp_ps Specific isobaric heat capacity as a function of pressure and entropy.
Specific isochoric heat capacity
CvV_p Saturated vapour isochoric heat capacity
CvL_p Saturated liquid isochoric heat capacity
CvV_T Saturated vapour isochoric heat capacity
CvL_T Saturated liquid isochoric heat capacity
Cv_pT Specific isochoric heat capacity as a function of pressure and temperature.
Cv_ph Specific isochoric heat capacity as a function of pressure and enthalpy
Cv_ps Specific isochoric heat capacity as a function of pressure and entropy.
Speed of sound
wV_p Saturated vapour speed of sound
wL_p Saturated liquid speed of sound
wV_T Saturated vapour speed of sound
wL_T Saturated liquid speed of sound
w_pT Speed of sound as a function of pressure and temperature.
w_ph Speed of sound as a function of pressure and enthalpy
w_ps Speed of sound as a function of pressure and entropy.
Vapour volume fraction
vx_ph Vapour volume fraction as a function of pressure and enthalpy
vx_ps Vapour volume fraction as a function of pressure and entropy
Composit Functions
Ask for two paramters and return this list:
pt (pressure,temperature)
out:=> Enthalpy [kJ/kg]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound [m/s]
Cp [kJ/kgK]
Cv[kJ/kgK]
ph (pressure,enthalpy)
out:=> Temperature [c]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound [m/s]
Cp [kJ/kgK]
Cv [kJ/kgK]
ps (pressure,entropy)
out: => Temperature [c]
Enthalpy [kJ/kg]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound
Cp [kJ/kgK]
Cv [kJ/kgK]
Transport propperties will follow soon.
Have fun with this,
and look forwards to your comments.
Cheers,
Jan [NL]
Please find my implementation of the Steam Table for the HP-Prime
It is based on the version of :
X Steam, Thermodynamic properties of water and steam.
by Magnus Holmgren
30 Jan 2006 (Updated 01 Aug 2007)
Water properties A complete IAPWS IF-97 standard.
It is still in progress! Next step is to make a nice App.
All functions are implemented, except he transport functions!
Small help:
Water and steam properties according to IAPWS IF-97.
This Steam Table provides accurate steam and water properties from 0 - 1000 bar and from 0 - 2000 deg C according to the standard IAPWS IF-97.
For accuracy of the functions in different regions see IF-97 (http://www.iapws.org)
Nomenclature
T Temperature (K)
t Temperature (C)
p Pressure (bar)
h Enthalpy (kJ/kg)
v Specific volume (m3/kg)
rho Density (kg/m3)
s Specific entropy (kJ/kgK)
u Specific internal energy (kJ/kgK)
Cp Specific isobaric heat capacity (kJ/kgK)
Cv Specific isochoric heat capacity (kJ/kgK)
w Speed of sound (-)
x Vapour fraction (-)
vx Vapour Volume Fraction (-)
Valid Steam table functions.
******* Temperature of these functions is T [K] *************
Temperature
Tsat_p Saturation temperature
T_ph Temperture as a function of pressure and enthalpy
T_ps Temperture as a function of pressure and entropy
T_hs Temperture as a function of enthalpy and entropy
Pressure
psat_T Saturation pressure
p_hs Pressure as a function of h and s.
p_hrho Pressure as a function of h and rho
Enthalpy
hV_p Saturated vapour enthalpy
hL_p Saturated liquid enthalpy
hV_T Saturated vapour enthalpy
hL_T Saturated liquid enthalpy
h_pT Entalpy as a function of pressure and temperature.
h_ps Entalpy as a function of pressure and entropy.
h_px Entalpy as a function of pressure and vapour fraction.
h_prho Entalpy as a function of pressure and density.
h_Tx Entalpy as a function of temperature and vapour fraction
Specific volume
vV_p Saturated vapour volume
vL_p Saturated liquid volume
vV_T Saturated vapour volume
vL_T Saturated liquid volume
v_pT Specific volume as a function of pressure and temperature.
v_ph Specific volume as a function of pressure and enthalpy
v_ps Specific volume as a function of pressure and entropy.
Density
rhoV_p Saturated vapour density
rhoL_p Saturated liquid density
rhoV_T Saturated vapour density
rhoL_T Saturated liquid density
rho_pT Density as a function of pressure and temperature.
rho_ph Density as a function of pressure and enthalpy
rho_ps Density as a function of pressure and entropy.
Specific entropy
sV_p Saturated vapour entropy
sL_p Saturated liquid entropy
sV_T Saturated vapour entropy
sL_T Saturated liquid entropy
s_pT Specific entropy as a function of pressure and temperature
s_ph Specific entropy as a function of pressure and enthalpy
Specific internal energy
uV_p Saturated vapour internal energy
uL_p Saturated liquid internal energy
uV_T Saturated vapour internal energy
uL_T Saturated liquid internal energy
u_pT Specific internal energy as a function of pressure and temperature.
u_ph Specific internal energy as a function of pressure and enthalpy
u_ps Specific internal energy as a function of pressure and entropy.
Specific isobaric heat capacity
CpV_p Saturated vapour heat capacity
CpL_p Saturated liquid heat capacity
CpV_T Saturated vapour heat capacity
CpL_T Saturated liquid heat capacity
Cp_pT Specific isobaric heat capacity as a function of pressure and temperature.
Cp_ph Specific isobaric heat capacity as a function of pressure and enthalpy
Cp_ps Specific isobaric heat capacity as a function of pressure and entropy.
Specific isochoric heat capacity
CvV_p Saturated vapour isochoric heat capacity
CvL_p Saturated liquid isochoric heat capacity
CvV_T Saturated vapour isochoric heat capacity
CvL_T Saturated liquid isochoric heat capacity
Cv_pT Specific isochoric heat capacity as a function of pressure and temperature.
Cv_ph Specific isochoric heat capacity as a function of pressure and enthalpy
Cv_ps Specific isochoric heat capacity as a function of pressure and entropy.
Speed of sound
wV_p Saturated vapour speed of sound
wL_p Saturated liquid speed of sound
wV_T Saturated vapour speed of sound
wL_T Saturated liquid speed of sound
w_pT Speed of sound as a function of pressure and temperature.
w_ph Speed of sound as a function of pressure and enthalpy
w_ps Speed of sound as a function of pressure and entropy.
Vapour volume fraction
vx_ph Vapour volume fraction as a function of pressure and enthalpy
vx_ps Vapour volume fraction as a function of pressure and entropy
Composit Functions
Ask for two paramters and return this list:
pt (pressure,temperature)
out:=> Enthalpy [kJ/kg]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound [m/s]
Cp [kJ/kgK]
Cv[kJ/kgK]
ph (pressure,enthalpy)
out:=> Temperature [c]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound [m/s]
Cp [kJ/kgK]
Cv [kJ/kgK]
ps (pressure,entropy)
out: => Temperature [c]
Enthalpy [kJ/kg]
Volume [m3/kg]
Entropy [kJ/kgK]
Speed of sound
Cp [kJ/kgK]
Cv [kJ/kgK]
Transport propperties will follow soon.
Have fun with this,
and look forwards to your comments.
Cheers,
Jan [NL]