FORTRAN code for the Kolafa and Nezbeda equation of state: Difference between revisions

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The following is the FORTRAN source code for the [[Lennard-Jones_equation_of_state#Kolafa and Nezbeda equation of state | Kolafa and Nezbeda equation of state]] for the [[Lennard-Jones model]]
The following are the FORTRAN source code functions (without a "main" program) for the [[Lennard-Jones_equation_of_state#Kolafa and Nezbeda equation of state | Kolafa and Nezbeda equation of state]] for the [[Lennard-Jones model]]


  c===================================================================
  c===================================================================
Line 18: Line 18:
       eta = PI/6.*rho * (dC(T))**3
       eta = PI/6.*rho * (dC(T))**3
       ALJ =  (dlog(rho)+betaAHS(eta)
       ALJ =  (dlog(rho)+betaAHS(eta)
    +  +rho*BC(T)/exp(gammaBH(T)*rho**2))*T
      +  +rho*BC(T)/exp(gammaBH(T)*rho**2))*T
    +  +DALJ(T,rho)
      +  +DALJ(T,rho)
       RETURN
       RETURN
       END
       END
Line 28: Line 28:
       eta = PI/6. *rho*(dC(T))**3
       eta = PI/6. *rho*(dC(T))**3
       ALJres = (betaAHS(eta)
       ALJres = (betaAHS(eta)
    + +rho*BC(T)/exp(gammaBH(T)*Sqrt(rho)))*T
      + +rho*BC(T)/exp(gammaBH(T)*Sqrt(rho)))*T
    + +DALJ(T,rho)
      + +DALJ(T,rho)
       RETURN
       RETURN
       END
       END
Line 38: Line 38:
       eta=PI/6. *rho*(dC(T))**3
       eta=PI/6. *rho*(dC(T))**3
       sum=((2.01546797*2+rho*(
       sum=((2.01546797*2+rho*(
    + (-28.17881636)*3+rho*(
      + (-28.17881636)*3+rho*(
    + 28.28313847*4+rho*
      + 28.28313847*4+rho*
    + (-10.42402873)*5)))
      + (-10.42402873)*5)))
    + +(-19.58371655*2+rho*(
      + +(-19.58371655*2+rho*(
    + +75.62340289*3+rho*(
      + +75.62340289*3+rho*(
    + (-120.70586598)*4+rho*(
      + (-120.70586598)*4+rho*(
    + +93.92740328*5+rho*
      + +93.92740328*5+rho*
    + (-27.37737354)*6))))/dsqrt(T)
      + (-27.37737354)*6))))/dsqrt(T)
    + + ((29.34470520*2+rho*(
      + + ((29.34470520*2+rho*(
    + (-112.35356937)*3+rho*(
      + (-112.35356937)*3+rho*(
    + +170.64908980*4+rho*(
      + +170.64908980*4+rho*(
    + (-123.06669187)*5+rho*
      + (-123.06669187)*5+rho*
    + 34.42288969*6))))+
      + 34.42288969*6))))+
    + ((-13.37031968)*2+rho*(
      + ((-13.37031968)*2+rho*(
    + 65.38059570*3+rho*(
      + 65.38059570*3+rho*(
    + (-115.09233113)*4+rho*(
      + (-115.09233113)*4+rho*(
    + 88.91973082*5+rho*
      + 88.91973082*5+rho*
    + (-25.62099890)*6))))/T)/T)*rho**2
      + (-25.62099890)*6))))/T)/T)*rho**2
         PLJ = ((zHS(eta)
         PLJ = ((zHS(eta)
    +  + BC(T)/exp(gammaBH(T)*rho**2)
      +  + BC(T)/exp(gammaBH(T)*rho**2)
    +  *rho*(1-2*gammaBH(T)*rho**2))*T
      +  *rho*(1-2*gammaBH(T)*rho**2))*T
    +  +sum )*rho
      +  +sum )*rho
         RETURN
         RETURN
         END
         END
Line 71: Line 71:
       eta=PI/6. *rho*d**3
       eta=PI/6. *rho*d**3
       sum= ((2.01546797+rho*(
       sum= ((2.01546797+rho*(
    + (-28.17881636)+rho*(
      + (-28.17881636)+rho*(
    + +28.28313847+rho*
      + +28.28313847+rho*
    + (-10.42402873))))
      + (-10.42402873))))
    + + (-19.58371655*1.5+rho*(
      + + (-19.58371655*1.5+rho*(
    + 75.62340289*1.5+rho*(
      + 75.62340289*1.5+rho*(
    + (-120.70586598)*1.5+rho*(
      + (-120.70586598)*1.5+rho*(
    + 93.92740328*1.5+rho*
      + 93.92740328*1.5+rho*
    + (-27.37737354)*1.5))))/dsqrt(T)
      + (-27.37737354)*1.5))))/dsqrt(T)
    + + ((29.34470520*2+rho*(
      + + ((29.34470520*2+rho*(
    + -112.35356937*2+rho*(
      + -112.35356937*2+rho*(
    +  170.64908980*2+rho*(
      +  170.64908980*2+rho*(
    + -123.06669187*2+rho*
      + -123.06669187*2+rho*
    + 34.42288969*2)))) +
      + 34.42288969*2)))) +
    + (-13.37031968*3+rho*(
      + (-13.37031968*3+rho*(
    +  65.38059570*3+rho*(
      +  65.38059570*3+rho*(
    +  -115.09233113*3+rho*(
      +  -115.09233113*3+rho*(
    + 88.91973082*3+rho*
      + 88.91973082*3+rho*
    + (-25.62099890)*3))))/T)/T) *rho*rho
      + (-25.62099890)*3))))/T)/T) *rho*rho
      ULJ = 3*(zHS(eta)-1)*dBHdT/d
      ULJ = 3*(zHS(eta)-1)*dBHdT/d
    + +rho*dB2BHdT/exp(gammaBH(T)*rho**2) +sum
      + +rho*dB2BHdT/exp(gammaBH(T)*rho**2) +sum
      RETURN
      RETURN
      END
      END
       DOUBLE PRECISION FUNCTION zHS(eta)
       DOUBLE PRECISION FUNCTION zHS(eta)
       implicit double precision (a-h,o-z)
       implicit double precision (a-h,o-z)
Line 101: Line 101:
       implicit double precision (a-h,o-z)
       implicit double precision (a-h,o-z)
       betaAHS = dlog(1-eta)/0.6
       betaAHS = dlog(1-eta)/0.6
    +  + eta*( (4.0/6*eta-33.0/6)*eta+34.0/6 ) /(1.-eta)**2
      +  + eta*( (4.0/6*eta-33.0/6)*eta+34.0/6 ) /(1.-eta)**2
       RETURN
       RETURN
       END
       END
Line 110: Line 110:
       isT=1/dsqrt(T)
       isT=1/dsqrt(T)
       dLJ = ((( 0.011117524191338 *isT-0.076383859168060)
       dLJ = ((( 0.011117524191338 *isT-0.076383859168060)
    + *isT)*isT+0.000693129033539)/isT+1.080142247540047
      + *isT)*isT+0.000693129033539)/isT+1.080142247540047
    + +0.127841935018828*dlog(isT)
      + +0.127841935018828*dlog(isT)
       RETURN
       RETURN
       END
       END
Line 118: Line 118:
       sT=dsqrt(T)
       sT=dsqrt(T)
       dC = -0.063920968*dlog(T)+0.011117524/T
       dC = -0.063920968*dlog(T)+0.011117524/T
    +    -0.076383859/sT+1.080142248+0.000693129*sT
      +    -0.076383859/sT+1.080142248+0.000693129*sT
       RETURN
       RETURN
       END
       END
Line 125: Line 125:
       sT=dsqrt(T)
       sT=dsqrt(T)
       dCdT =  0.063920968*T+0.011117524+(-0.5*0.076383859
       dCdT =  0.063920968*T+0.011117524+(-0.5*0.076383859
    +  -0.5*0.000693129*T)*sT
      +  -0.5*0.000693129*T)*sT
       RETURN
       RETURN
       END
       END
Line 133: Line 133:
       isT=1/dsqrt(T)
       isT=1/dsqrt(T)
       BC = (((((-0.58544978*isT+0.43102052)*isT
       BC = (((((-0.58544978*isT+0.43102052)*isT
    +  +.87361369)*isT-4.13749995)*isT+2.90616279)*isT
      +  +.87361369)*isT-4.13749995)*isT+2.90616279)*isT
    +  -7.02181962)/T+0.02459877
      +  -7.02181962)/T+0.02459877
       RETURN
       RETURN
       END
       END
Line 142: Line 142:
       isT=1/dsqrt(T)
       isT=1/dsqrt(T)
       BCdT = ((((-0.58544978*3.5*isT+0.43102052*3)*isT
       BCdT = ((((-0.58544978*3.5*isT+0.43102052*3)*isT
    +  +0.87361369*2.5)*isT-4.13749995*2)*isT
      +  +0.87361369*2.5)*isT-4.13749995*2)*isT
    +  +2.90616279*1.5)*isT-7.02181962
      +  +2.90616279*1.5)*isT-7.02181962
       RETURN
       RETURN
       END
       END
Line 154: Line 154:
       implicit double precision (a-h,o-z)
       implicit double precision (a-h,o-z)
       DALJ = ((+2.01546797+rho*(-28.17881636
       DALJ = ((+2.01546797+rho*(-28.17881636
    + +rho*(+28.28313847+rho*(-10.42402873))))
      + +rho*(+28.28313847+rho*(-10.42402873))))
    + +(-19.58371655+rho*(75.62340289+rho*((-120.70586598)
      + +(-19.58371655+rho*(75.62340289+rho*((-120.70586598)
    + +rho*(93.92740328+rho*(-27.37737354)))))/dsqrt(T)
      + +rho*(93.92740328+rho*(-27.37737354)))))/dsqrt(T)
    + + ( (29.34470520+rho*((-112.35356937)
      + + ( (29.34470520+rho*((-112.35356937)
    + +rho*(+170.64908980+rho*((-123.06669187)
      + +rho*(+170.64908980+rho*((-123.06669187)
    + +rho*34.42288969))))
      + +rho*34.42288969))))
    + +(-13.37031968+rho*(65.38059570+
      + +(-13.37031968+rho*(65.38059570+
    + rho*((-115.09233113)+rho*(88.91973082
      + rho*((-115.09233113)+rho*(88.91973082
    + +rho* (-25.62099890)))))/T)/T) *rho*rho
      + +rho* (-25.62099890)))))/T)/T) *rho*rho
       RETURN
       RETURN
       END
       END

Revision as of 12:13, 25 November 2010

The following are the FORTRAN source code functions (without a "main" program) for the Kolafa and Nezbeda equation of state for the Lennard-Jones model

c===================================================================
C      Package supplying the thermodynamic properties of the
C      LENNARD-JONES fluid
c
c      J. Kolafa, I. Nezbeda, Fluid Phase Equil. 100 (1994), 1
c
c      ALJ(T,rho)...Helmholtz free energy (including the ideal term)
c      PLJ(T,rho)...Pressure
c      ULJ(T,rho)...Internal energy
c===================================================================
      DOUBLE PRECISION FUNCTION ALJ(T,rho)
C      Helmholtz free energy (including the ideal term)
c
      implicit double precision (a-h,o-z)
      data pi /3.141592654d0/
      eta = PI/6.*rho * (dC(T))**3
      ALJ =  (dlog(rho)+betaAHS(eta)
     +  +rho*BC(T)/exp(gammaBH(T)*rho**2))*T
     +  +DALJ(T,rho)
      RETURN
      END
C/* Helmholtz free energy (without ideal term) */
      DOUBLE PRECISION FUNCTION ALJres(T,rho)
      implicit double precision (a-h,o-z)
      data pi /3.141592654d0/
      eta = PI/6. *rho*(dC(T))**3
      ALJres = (betaAHS(eta)
     + +rho*BC(T)/exp(gammaBH(T)*Sqrt(rho)))*T
     + +DALJ(T,rho)
      RETURN
      END
C/* pressure */
      DOUBLE PRECISION FUNCTION PLJ(T,rho)
      implicit double precision (a-h,o-z)
      data pi /3.141592654d0/
      eta=PI/6. *rho*(dC(T))**3
      sum=((2.01546797*2+rho*(
     + (-28.17881636)*3+rho*(
     + 28.28313847*4+rho*
     + (-10.42402873)*5)))
     + +(-19.58371655*2+rho*(
     + +75.62340289*3+rho*(
     + (-120.70586598)*4+rho*(
     + +93.92740328*5+rho*
     + (-27.37737354)*6))))/dsqrt(T)
     + + ((29.34470520*2+rho*(
     + (-112.35356937)*3+rho*(
     + +170.64908980*4+rho*(
     + (-123.06669187)*5+rho*
     + 34.42288969*6))))+
     + ((-13.37031968)*2+rho*(
     + 65.38059570*3+rho*(
     + (-115.09233113)*4+rho*(
     + 88.91973082*5+rho*
     + (-25.62099890)*6))))/T)/T)*rho**2
       PLJ = ((zHS(eta)
     +  + BC(T)/exp(gammaBH(T)*rho**2)
     +  *rho*(1-2*gammaBH(T)*rho**2))*T
     +  +sum )*rho
       RETURN
       END
C/* internal energy */
      DOUBLE PRECISION FUNCTION ULJ( T, rho)
      implicit double precision (a-h,o-z)
       data pi /3.141592654d0/
      dBHdT=dCdT(T)
      dB2BHdT=BCdT(T)
      d=dC(T)
      eta=PI/6. *rho*d**3
      sum= ((2.01546797+rho*(
     + (-28.17881636)+rho*(
     + +28.28313847+rho*
     + (-10.42402873))))
     + + (-19.58371655*1.5+rho*(
     + 75.62340289*1.5+rho*(
     + (-120.70586598)*1.5+rho*(
     + 93.92740328*1.5+rho*
     + (-27.37737354)*1.5))))/dsqrt(T)
     + + ((29.34470520*2+rho*(
     + -112.35356937*2+rho*(
     +  170.64908980*2+rho*(
     + -123.06669187*2+rho*
     + 34.42288969*2)))) +
     + (-13.37031968*3+rho*(
     +  65.38059570*3+rho*(
     +  -115.09233113*3+rho*(
     + 88.91973082*3+rho*
     + (-25.62099890)*3))))/T)/T) *rho*rho
      ULJ = 3*(zHS(eta)-1)*dBHdT/d
     + +rho*dB2BHdT/exp(gammaBH(T)*rho**2) +sum
      RETURN
      END
      DOUBLE PRECISION FUNCTION zHS(eta)
      implicit double precision (a-h,o-z)
      zHS = (1+eta*(1+eta*(1-eta/1.5*(1+eta)))) / (1-eta)**3
      RETURN
      END
      DOUBLE PRECISION FUNCTION betaAHS( eta )
      implicit double precision (a-h,o-z)
      betaAHS = dlog(1-eta)/0.6
     +  + eta*( (4.0/6*eta-33.0/6)*eta+34.0/6 ) /(1.-eta)**2
      RETURN
      END
C /* hBH diameter */
      DOUBLE PRECISION FUNCTION dLJ(T)
      implicit double precision (a-h,o-z)
      DOUBLE PRECISION IST
      isT=1/dsqrt(T)
      dLJ = ((( 0.011117524191338 *isT-0.076383859168060)
     + *isT)*isT+0.000693129033539)/isT+1.080142247540047
     + +0.127841935018828*dlog(isT)
      RETURN
      END
      DOUBLE PRECISION FUNCTION dC(T)
      implicit double precision (a-h,o-z)
      sT=dsqrt(T)
      dC = -0.063920968*dlog(T)+0.011117524/T
     +     -0.076383859/sT+1.080142248+0.000693129*sT
      RETURN
      END
      DOUBLE PRECISION FUNCTION dCdT( T)
      implicit double precision (a-h,o-z)
      sT=dsqrt(T)
      dCdT =   0.063920968*T+0.011117524+(-0.5*0.076383859
     +   -0.5*0.000693129*T)*sT
      RETURN
      END
      DOUBLE PRECISION FUNCTION BC( T)
      implicit double precision (a-h,o-z)
      DOUBLE PRECISION isT
      isT=1/dsqrt(T)
      BC = (((((-0.58544978*isT+0.43102052)*isT
     +  +.87361369)*isT-4.13749995)*isT+2.90616279)*isT
     +  -7.02181962)/T+0.02459877
      RETURN
      END
      DOUBLE PRECISION FUNCTION BCdT( T)
      implicit double precision (a-h,o-z)
      DOUBLE PRECISION iST
      isT=1/dsqrt(T)
      BCdT = ((((-0.58544978*3.5*isT+0.43102052*3)*isT
     +  +0.87361369*2.5)*isT-4.13749995*2)*isT
     +  +2.90616279*1.5)*isT-7.02181962
      RETURN
      END
      DOUBLE PRECISION FUNCTION gammaBH(X)
      implicit double precision (a-h,o-z)
      gammaBH=1.92907278
      RETURN
      END
      DOUBLE PRECISION FUNCTION DALJ(T,rho)
      implicit double precision (a-h,o-z)
      DALJ = ((+2.01546797+rho*(-28.17881636
     + +rho*(+28.28313847+rho*(-10.42402873))))
     + +(-19.58371655+rho*(75.62340289+rho*((-120.70586598)
     + +rho*(93.92740328+rho*(-27.37737354)))))/dsqrt(T)
     + + ( (29.34470520+rho*((-112.35356937)
     + +rho*(+170.64908980+rho*((-123.06669187)
     + +rho*34.42288969))))
     + +(-13.37031968+rho*(65.38059570+
     + rho*((-115.09233113)+rho*(88.91973082
     + +rho* (-25.62099890)))))/T)/T) *rho*rho
      RETURN
      END


Reference

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