📄 water.fld
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water !short name
7732-18-5 !CAS number
water !full name
H2O !chemical formula
R-718 !synonym
18.015268 !molecular weight [g/mol]
273.16 !triple point temperature [K]
373.1243 !normal boiling point [K]
647.096 !critical temperature [K]
22064.0 !critical pressure [kPa]
17.8737279956 !critical density [mol/L]
0.3443 !acentric factor
1.855 !dipole moment [Debye]
OTH !default reference state
300.0 1.0 45957.191490119709 164.00522417832 !tref, Pref, Href, Sref (corresponds to u,s = 0 @ Ttp)
6.1 !version number
! compiled by E.W. Lemmon, NIST Physical and Chemical Properties Division, Boulder, Colorado
! 01-22-97 EWL, original version
! 01-31-97 MM, add IAPWS surface tension formulation
! 02-20-97 MM, add default reference state
! 02-26-97 MM, add version number (future use)
! 03-11-97 MM, modify ECS-transport to new format
! 10-24-97 MM, read in f_int term in Eucken correlation in ECS method for t.c.
! change reference fluid EOS for ECS-transport from BWR to FEQ
! 04-06-98 EWL, add power of tau in exponential part of critical region terms
! 11-13-98 EWL, update format to version 6.1
! 11-18-98 EWL, add equation of state of Saul and Wagner (1989).
! 3-20-00 EWL, change max density to the density at p=2*pmax along melting line
! 11-07-00 EWL, add transport equations
! 10-17-01 EWL, add ancillary saturation equations
! 02-07-02 EWL, change the lower T limit for eta, tcx to 251.165 K
! 05-28-02 EWL, increase digits in Href
#EOS !equation of state specification
FEQ Helmholtz equation of state for water of Wagner and Pruss (2002).
?LITERATURE REFERENCE \
?Wagner, W. and Pruss, A.,
? "The IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary
? Water Substance for General and Scientific Use,"
? J. Phys. Chem. Ref. Data, 31(2): 387-535, 2002.
?\
?The uncertainty in density of the equation of state is 0.0001% at 1 atm
?in the liquid phase, and 0.001% at other liquid states at pressures up
?to 10 MPa and temperatures to 423 K. In the vapor phase, the uncertainty
?is 0.05% or less. The uncertainties rise at higher temperatures and/or
?pressures, but are generally less than 0.1% in density except at extreme
?conditions. The uncertainty in pressure in the critical region is 0.1%.
?The uncertainty of the speed of sound is 0.15% in the vapor and 0.1% or
?less in the liquid, and increases near the critical region and at high
?temperatures and pressures. The uncertainty in isobaric heat capacity
?is 0.2% in the vapor and 0.1% in the liquid, with increasing values in
?the critical region and at high pressures. The uncertainties of
?saturation conditions are 0.025% in vapor pressure, 0.0025% in
?saturated liquid density, and 0.1% in saturated vapor density. The
?uncertainties in the saturated densities increase substantially as the
?critical region is approached.
?\
!end of info section
273.16 !lower temperature limit [K]
1275.0 !upper temperature limit [K]
1000000.0 !upper pressure limit [kPa]
73.96 !maximum density [mol/L]
CPP !pointer to Cp0 model
18.015268 !molecular weight [g/mol]
273.16 !triple point temperature [K]
0.61248 !pressure at triple point [kPa]
55.49696 !density at triple point [mol/L]
373.1243 !normal boiling point temperature [K]
0.3443 !acentric factor
647.096 22064.0 17.8737279956 !Tc [K], pc [kPa], rhoc [mol/L]
647.096 17.8737279956 !reducing parameters [K, mol/L]
8.314371357587 !gas constant [J/mol-K]
51 4 5 12 0 0 !# terms, # coeff/term for: "normal" terms, critical, spare
0.125335479355d-01 -0.500 1.00 0 !a(i),t(i),d(i),l(i)
0.789576347228d+01 0.875 1.00 0
-0.878032033036d+01 1.000 1.00 0
0.318025093454d+00 0.500 2.00 0
-0.261455338594d+00 0.750 2.00 0
-0.781997516880d-02 0.375 3.00 0
0.880894931021d-02 1.000 4.00 0
-0.668565723080d+00 4.000 1.00 1
0.204338109510d+00 6.000 1.00 1
-0.662126050397d-04 12.000 1.00 1
-0.192327211560d+00 1.000 2.00 1
-0.257090430034d+00 5.000 2.00 1
0.160748684863d+00 4.000 3.00 1
-0.400928289258d-01 2.000 4.00 1
0.393434226033d-06 13.000 4.00 1
-0.759413770881d-05 9.000 5.00 1
0.562509793519d-03 3.000 7.00 1
-0.156086522571d-04 4.000 9.00 1
0.115379964230d-08 11.000 10.00 1
0.365821651442d-06 4.000 11.00 1
-0.132511800747d-11 13.000 13.00 1
-0.626395869125d-09 1.000 15.00 1
-0.107936009089d+00 7.000 1.00 2
0.176114910088d-01 1.000 2.00 2
0.221322951675d+00 9.000 2.00 2
-0.402476697635d+00 10.000 2.00 2
0.580833999858d+00 10.000 3.00 2
0.499691469908d-02 3.000 4.00 2
-0.313587007125d-01 7.000 4.00 2
-0.743159297103d+00 10.000 4.00 2
0.478073299155d+00 10.000 5.00 2
0.205279408959d-01 6.000 6.00 2
-0.136364351103d+00 10.000 6.00 2
0.141806344006d-01 10.000 7.00 2
0.833265048807d-02 1.000 9.00 2
-0.290523360096d-01 2.000 9.00 2
0.386150855742d-01 3.000 9.00 2
-0.203934865137d-01 4.000 9.00 2
-0.165540500637d-02 8.000 9.00 2
0.199555719795d-02 6.000 10.00 2
0.158703083242d-03 9.000 10.00 2
-0.163885683425d-04 8.000 12.00 2
0.436136157238d-01 16.000 3.00 3
0.349940054638d-01 22.000 4.00 3
-0.767881978446d-01 23.000 4.00 3
0.224462773320d-01 23.000 5.00 3
-0.626897104147d-04 10.000 14.00 4
-0.557111185656d-09 50.000 3.00 6
-0.199057183544d+00 44.000 6.00 6
0.317774973307d+00 46.000 6.00 6
-0.118411824260d+00 50.000 6.00 6
-0.313062603234d+02 0.000 3.00 2 2 -20. -150. 1.21 1. 0. 0. 0.
0.315461402378d+02 1.000 3.00 2 2 -20. -150. 1.21 1. 0. 0. 0.
-0.252131543417d+04 4.000 3.00 2 2 -20. -250. 1.25 1. 0. 0. 0.
-0.148746408567d+00 0.000 1.00 2 2 0.85 0.3 0.32 28. 700. 0.2 3.5
0.318061108784d+00 0.000 1.00 2 2 0.95 0.3 0.32 32. 800. 0.2 3.5
#AUX !auxiliary model specification
CPP ideal gas heat capacity function
?LITERATURE REFERENCE \
?Wagner, W. and Pruss, A.,
? "The IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary
? Water Substance for General and Scientific Use,"
? J. Phys. Chem. Ref. Data, 31(2): 387-535, 2002.
?\
!end of info section
273.16 !lower temperature limit [K]
1275.0 !upper temperature limit [K]
0.0 !upper pressure limit [kPa]
0.0 !maximum density [mol/L]
1.0 8.314371357587 !reducing parameters for T, Cp0
1 5 0 0 0 0 0 !Nterms: polynomial, exponential, cosh, sinh
0.40063200d+01 0.00
0.12436000d-01 833.00
0.97315000d+00 2289.0
0.12795000d+01 5009.00
0.96956000d+00 5982.0
0.24873000d+00 17800.0
@AUX !auxiliary model specification
PH0 Helmholtz form for the ideal-gas state
?LITERATURE REFERENCE \
?Wagner, W. and Pruss, A.,
? "The IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary
? Water Substance for General and Scientific Use,"
? J. Phys. Chem. Ref. Data, 31(2): 387-535, 2002.
?\
!end of info section
273.16 !lower temperature limit [K]
1275.0 !upper temperature limit [K]
0.0 !upper pressure limit [kPa]
0.0 !maximum density [mol/L]
1 2 5 !Nterms: ai*log(tau**ti); ai*tau**ti; ai*log(1-exp(bi*tau))
0.30063200d+01 1.0 !ai, ti for [ai*log(tau**ti)] terms
-0.832044648201d+01 0.0 !aj, ti for [ai*tau**ti] terms
0.66832105268d+01 1.0
0.12436000d-01 -1.28728967 !aj, ti for [ai*log(1-exp(ti*tau)] terms
0.97315000d+00 -3.53734222
0.12795000d+01 -7.74073708
0.96956000d+00 -9.24437796
0.24873000d+00 -27.5075105
@EOS !equation of state specification
FE1 Helmholtz equation of state for water of Saul and Wagner (1989).
?LITERATURE REFERENCE \
?Saul, A. and Wagner, W.,
? "A Fundamental Equation for Water Covering the Range From the
? Melting Line to 1273 K at Pressures up to 25000 MPa,"
? J. Phys. Chem. Ref. Data, 18(4):1537-1564, 1989.
?\
!end of info section
273.16 !lower temperature limit [K]
1273.0 !upper temperature limit [K]
400000.0 !upper pressure limit [kPa]
55.49 !maximum density [mol/L]
CP1 !pointer to Cp0 model
18.01534 !molecular weight [g/mol]
273.16 !triple point temperature [K]
0.61166 !pressure at triple point [kPa]
55.497 !density at triple point [mol/L]
373.15 !normal boiling point temperature [K]
0.341 !acentric factor
647.14 22064.0 17.8737 !Tc [K], pc [kPa], rhoc [mol/L]
647.14 17.8737 !reducing parameters [K, mol/L]
8.31434 !gas constant [J/mol-K]
38 4 0 0 0 0 !# terms, # coeff/term for: "normal" terms, critical, spare
0.233000901300d+0 0.0 1.0 0 !a(i),t(i),d(i),l(i)
-0.140209112800d+1 2.0 1.0 0
0.117224804100d+0 0.0 2.0 0
-0.185074949900d+0 1.0 2.0 0
0.177011042200d+0 2.0 2.0 0
0.552515179400d-1 3.0 2.0 0
-0.341325738000d-3 5.0 3.0 0
0.855727436700d-3 0.0 5.0 0
0.371690068500d-3 1.0 5.0 0
-0.130887123300d-3 3.0 6.0 0
0.321689519900d-4 2.0 7.0 0
0.278588103400d-6 5.0 8.0 0
-0.352151113000d+0 5.0 1.0 2
0.788191453600d-1 7.0 1.0 2
-0.151966661000d-1 9.0 1.0 2
-0.106845858600d+0 5.0 2.0 2
-0.205504628800d+0 4.0 3.0 2
0.914619801200d+0 6.0 3.0 2
0.321334356900d-3 13.0 3.0 2
-0.113359139100d+1 5.0 4.0 2
-0.310752074900d+0 2.0 5.0 2
0.121790152700d+1 3.0 5.0 2
-0.448171083100d+0 2.0 6.0 2
0.549421877200d-1 0.0 7.0 2
-0.866522209600d-4 11.0 7.0 2
0.384408408800d-1 1.0 8.0 2
0.985304488400d-2 4.0 8.0 2
-0.176759847200d-1 0.0 9.0 2
0.148854922200d-2 0.0 11.0 2
-0.307071906900d-2 3.0 11.0 2
0.388080328000d-2 5.0 11.0 2
-0.262750521500d-2 6.0 11.0 2
0.525837138800d-3 7.0 11.0 2
-0.171639690100d+0 13.0 2.0 3
0.718882362400d-1 14.0 2.0 3
0.588126835700d-1 15.0 3.0 3
-0.145593888000d-1 24.0 3.0 3
-0.121613940000d-1 15.0 5.0 3
#AUX !auxiliary model specification
CP1 ideal gas heat capacity function
?LITERATURE REFERENCE \
?Saul, A. and Wagner, W.,
? "A Fundamental Equation for Water Covering the Range From the
? Melting Line to 1273 K at Pressures up to 25000 MPa,"
? J. Phys. Chem. Ref. Data, 18(4):1537-1564, 1989.
?\
!end of info section
273.16 !lower temperature limit [K]
1273.0 !upper temperature limit [K]
0.0 !upper pressure limit [kPa]
0.0 !maximum density [mol/L]
1.0 8.31434 !reducing parameters for T, Cp0
1 5 0 0 0 0 0 !Nterms: polynomial, exponential, cosh, sinh
0.400632d+1 0.00
0.124360d-1 833.0
0.973150d+0 2289.0
0.127950d+1 5009.0
0.969560d+0 5982.0
0.248730d+0 17800.0
#TCX !thermal conductivity model specification
TC0 pure fluid thermal conductivity model of Kestin et al. (1984).
?LITERATURE REFERENCE \
?International Association for the Properties of Water and Steam,
? "Revised Release on the IAPS Formulation 1985 for the Thermal
? Conductivity of Ordinary Water Substance," IAPWS, 1998.
?\
?Kestin, J., Sengers, J.V., Kamgar-Parsi, B. and Levelt Sengers, J.M.H.
? "Thermophysical Properties of Fluid H2O,"
? J. Phys. Chem. Ref. Data, 13(1):175-183, 1984.
?\
?For the uncertainties in the thermal conductivity, see the IAPWS Release.
?\
!end of info section
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