📄 r245fa.fld
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R245fa !short name
460-73-11 !CAS number
1,1,1,3,3-pentafluoropropane !full name
CF3CH2CHF2 !chemical formula
HFC-245fa !synonym
134.04882 !molecular weight [g/mol]
0.0 !triple point temperature [K]
288.05 !normal boiling point [K] (calculated from ECS model)
427.2 !critical temperature [K]
3640.0 !critical pressure [kPa]
3.8568038 !critical density [mol/L] (517.0 kg/m**3)
0.3724 !acentric factor (calculated from ECS model)
1.549 !dipole moment [Debye]; Goodwin & Mehl (1997) IJT 18:795-806
IIR !default reference state
6.1 !version number
! compiled by E.W. Lemmon, NIST Physical and Chemical Properties Division, Boulder, Colorado
! 01-24-97 EWL, original version
! 05-29-97 MM, add surface tension
! 06-01-97 EWL, add parameters for ECS viscosity correlation
! 06-05-97 MM, add Cp0 from Refprop v5.10, N.B. coeff are those for R245ca
! 06-11-97 EWL, revised ECS fit
! 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
! 11-25-97 MM, add dipole moment
! 02-28-99 MM, new Cp0 fit based on heat capacities from speed of sound measurements
! 05-17-02 MLH, added ECS k fit; revised ECS eta fit;
#EOS !equation of state specification
ECS Extended Corresponding States model w/ T-dependent shape factors.
?LITERATURE REFERENCE \
?Huber, M.L. and Ely, J.F.,
? "A predictive extended corresponding states model for pure and mixed
? refrigerants including an equation of state for R134a,"
? Int. J. Refrigeration, 17:18-31, 1994.\
?\
?ECS parameters fitted by E.W. Lemmon, NIST, 06-11-97\
?DATA SOURCES\
?Defibaugh, D.R. and Moldover, M.R. Compressed and saturated liquid densities
? for 18 halogenated organic compounds. J. Chem. Eng. Data, 42(1):160-168
? (1997).\
?\
?Average absolute deviations of the fit from the experimental data were:\
? PVT: 0.02%; Psat: 0.23%\
?\
?Ideal-gas heat capacity fit to values derived from speed of sound data
? of J. Scott, NIST, 1999. These have been augmented with spectroscopic values
? from R. Singh (1999), AlliedSignal, personal communication.
?\
!end of info section
200.0 !lower temperature limit [K]
500.0 !upper temperature limit [K]
60000.0 !upper pressure limit [kPa]
11.7536 !maximum density [mol/L]
CPP !pointer to Cp0 model
R125.fld
BWR !pointer to reference fluid model
0.30349 !acentric factor for R125 used in shape factor correlation
0.27022 !critical compressibility for R125 used in correlation
0.3724 !acentric factor for fluid used in shape factor correlation
427.2 !critical temperature [K]
3640.0 !critical pressure [kPa]
3.8568038 !critical density [mol/L] (517.0 kg/m**3)
2 !number of temperature coefficients for 'f' shape factor
0.286681978E-01 0 !alpha1 of Huber & Ely
-0.663424387E+00 1 !alpha2 of Huber & Ely (log(Tr) term)
0 !number of density coefficients for 'f' shape factor
2 !number of temperature coefficients for 'h' shape factor
-0.177066450E+00 0 !beta1 of Huber & Ely
-0.346765954E-01 1 !beta2 of Huber & Ely (log(Tr) term)
0 !number of density coefficients for 'h' shape factor
#AUX !auxiliary model specification
CPP ideal gas heat capacity function
?LITERATURE REFERENCES \
?Coefficients fit to the heat capacity values derived from speed of sound data
? of J. Scott, NIST, 1999. These have been augmented with spectroscopic values
? from R. Singh, AlliedSignal, personal communication, 1999.
?\
!end of info section
200.0 !lower temperature limit [K]
400.0 !upper temperature limit [K]
0.0 !upper pressure limit [kPa]
0.0 !maximum density [mol/L]
1.0 1.0 !reducing parameters for T, Cp0
3 0 0 0 0 0 0 !Nterms: polynomial, exponential, cosh, sinh
2.81594d+1 0.00 !c(i), power of T
3.35454d-1 1.00
-1.44213d-4 2.00
#TRN !transport model specification
ECS Extended Corresponding States model (R134a reference); fitted to data.
?LITERATURE REFERENCES \
?Klein, S.A., McLinden, M.O., and Laesecke, A.,
? "An improved extended corresponding states method for estimation of
? viscosity of pure refrigerants and mixtures,"
? Int. J. Refrigeration, 20:208-217, 1997.
?\
?McLinden, M.O., Klein, S.A., and Perkins, R.A.,
? "An extended corresponding states model for the thermal conductivity
? of refrigerants and refrigerant mixtures,"
? Int. J. Refrigeration, 23:43-63, 2000.
?\
?\
?DATA SOURCES FOR THERMAL CONDUCTIVITY\
?The ECS parameters for thermal conductivity were based on the data of:\
?\
?Yata, J., Hori, M. Niki, M., Isono, Y. and Yanagitani, Y. (2000). "Coexistence
? curve of HFC-134a and thermal conductivity of HFC-245fa".
? Fluid Phase Equilibria, 174:221-229.
?
?Dohrn, R., Treckmann, R., and Heinemann, T. (1999). "Vapor-phase thermal
? conductivity of 1,1,1,2,2-pentafluoropropane, 1,1,1,3,3-pentafluoropropane, 1,1,2,2,3-
? pentafluoropropane and carbon dioxide". Fluid Phase Equilibria 158-160:1021-1028\
?
?Geller, V., Bivens, D.B. and Yokozeki, A. (1999). "Transport properties and surface tension
? of hydrofluorocarbons HFC236fa and HFC 245fa", Proc. 20th Int. Congress of Refrig,IIR/IIF,Sydney.
?\
?\
?Average absolute deviations of the fit from the experimental data were:\
? Yata: 1.30%; Dohrn: 2.63%; Geller:7.80%;
? Overall: 6.01%\
?\
?DATA SOURCES FOR VISCOSITY\
?The ECS parameters for viscosity were based on the data of:\
?\
?Laesecke, A. and R. F. Hafer (1998).
? "Viscosity of Fluorinated Propane Isomers. 2. Measurements of Three
? Compounds and Model Comparisons,"
? J. Chem. Eng. Data, 43(1):84-92.
?
?Geller, V., Bivens, D.B. and Yokozeki, A. (1999). "Transport properties and surface tension
? of hydrofluorocarbons HFC236fa and HFC 245fa", Proc. 20th Int. Congress of Refrig,IIR/IIF,Sydney.
?
?Average absolute deviations of the fit from the experimental data were:\
? Laesecke: 1.64%; Geller: 2.54%;
? Overall: 1.93%\
?\
?The Lennard-Jones parameters are estimated.\
?\
!end of info section
200.0 !lower temperature limit [K] (based on Ttp/Tc of ref fluid)
400.0 !upper temperature limit [K]
60000.0 !upper pressure limit [kPa]
11.7536 !maximum density [mol/L] (limit of ECS-thermo fit)
FEQ R134a.fld
VS1 !model for reference fluid viscosity
TC1 !model for reference fluid thermal conductivity
1 !Lennard-Jones flag (0 or 1) (0 => use estimates)
0.5529 !Lennard-Jones coefficient sigma [nm] for ECS method !from scaling R134a
329.72 !Lennard-Jones coefficient epsilon/kappa [K] for ECS method !from scaling R134a
2 0 0 !number of terms in f_int term in Eucken correlation, spare1, spare2
1.64990d-3 0.0 0.0 0.0 !coeff, power of T, spare 1, spare 2
-3.28868d-7 1.0 0.0 0.0 !coeff, power of T, spare 1, spare 2
2 0 0 !number of terms in psi (visc shape factor): poly,spare1,spare2
1.15290 0.0 0.0 0.0 !coeff, power of Tr, power of Dr, spare
-4.41540d-2 0.0 1.0 0.0 !coeff, power of Tr, power of Dr, spare
2 0 0 !number of terms in chi (t.c. shape factor): poly,spare1,spare2
1.16265d+00 0.0 0.0 0.0 !coeff, power of Tr, power of Dr, spare
-4.73491d-02 0.0 1.0 0.0 !coeff, power of Tr, power of Dr, spare
TK6 !pointer to critical enhancement auxiliary function
@AUX !thermal conductivity critical enhancement model
TK6 simplified thermal conductivity critical enhancement of Olchowy and Sengers
?LITERATURE REFERENCE \
?Olchowy, G.A. and Sengers, J.V.,
? "A simplified representation for the thermal conductivity of fluids in the
? critical region,"
? Int. J. Thermophysics, 10:417-426, 1989.
?\
?as applied to CO2 by:
?\
?Vesovic, V., Wakeham, W.A., Olchowy, G.A., Sengers, J.V., Watson, J.T.R.
? and Millat, J.,
? "The transport properties of carbon dioxide,"
? J. Phys. Chem. Ref. Data, 19:763-808, 1990.
?\
!end of info section
200.0 !lower temperature limit [K]
400.0 !upper temperature limit [K]
60000.0 !upper pressure limit [kPa]
11.7536 !maximum density [mol/L]
9 0 0 0 !# terms: CO2-terms, spare, spare, spare
1.0 1.0 1.0 !reducing par for T, rho, tcx (mW/m-K)
0.630d0 !gnu (universal exponent)
1.239d0 !gamma (universal exponent)
1.03d0 !R0 (universal amplitude)
0.063d0 !z (universal exponent--not used for t.c., only viscosity)
1.00d0 !c (constant in viscosity eqn = 1/[2 - (alpha + gamma)/(2*nu)], but often set to 1)
0.194d-9 !xi0 (amplitude) [m]
0.0496 !gam0 (amplitude) [-]
0.5d-09 !qd_inverse (modified effective cutoff parameter) [m] generic number, not fit to data
640.80d+00 !tref (reference temperature)=1.5*Tc [K]
#STN !surface tension specification
ST1 surface tension model of Schmidt et al. (1996).
?LITERATURE REFERENCE \
?Schmidt, J.W., Carrillo-Nava, E., and Moldover, M.R.,
? "Partially halogenated hydrocarbons CHFCl-CF3, CF3-CH3, CF3-CHF-CHF2,
? CF3-CH2-CF3, CHF2-CF2-CH2F, CF3-CH2-CHF2, CF3-O-CHF2: Critical temperature,
? refractive indices, surface tension and estimates of liquid, vapor and
? critical densities,"
? Fluid Phase Equilibria, 122:187-206, 1996.
?
!end of info section
200.0 !lower temperature limit [K]
427.20 !upper temperature limit [K]
0.0 !(dummy) upper pressure limit
0.0 !(dummy) maximum density
3 !number of terms in surface tension model
427.20 !critical temperature used in fit (dummy)
0.054784 1.26 !sigma0 and n
0.050456 1.76 != sigma0 * sigma1
-0.063002 2.26 != sigma0 * sigma2
@END
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