puff.F File Reference

#include "my_real.inc"
#include "param_c.inc"
#include "com04_c.inc"
#include "com06_c.inc"
#include "com08_c.inc"
#include "vect01_c.inc"
#include "scr06_c.inc"

Go to the source code of this file.

Functions/Subroutines
subroutine	puff (iflag, nel, pm, off, eint, mu, mu2, espe, dvol, df, vnew, mat, pnew, dpdm, dpde)

Function/Subroutine Documentation

puff()

subroutine puff	(	integer	iflag,
		integer	nel,
			pm,
			off,
			eint,
			mu,
			mu2,
			espe,
			dvol,
			df,
			vnew,
		integer, dimension(nel)	mat,
			pnew,
			dpdm,
			dpde )

Definition at line 30 of file puff.F.

C-----------------------------------------------
C   D e s c r i p t i o n
C-----------------------------------------------
C This subroutine contains numerical solving
C of PUFF EOS
!----------------------------------------------------------------------------
!! \details STAGGERED SCHEME IS EXECUTED IN TWO PASSES IN EOSMAIN : IFLG=0 THEN IFLG=1
!! \details COLLOCATED SCHEME IS DOING A SINGLE PASS : IFLG=2
!! \details
!! \details  STAGGERED SCHEME
!! \details     EOSMAIN / IFLG = 0 : DERIVATIVE CALCULATION FOR SOUND SPEED ESTIMATION c[n+1] REQUIRED FOR PSEUDO-VISCOSITY (DPDE:partial derivative, DPDM:total derivative)
!! \details     MQVISCB            : PSEUDO-VISCOSITY Q[n+1]
!! \details     MEINT              : INTERNAL ENERGY INTEGRATION FOR E[n+1] : FIRST PART USING P[n], Q[n], and Q[n+1] CONTRIBUTIONS
!! \details     EOSMAIN / IFLG = 1 : UPDATE P[n+1], T[N+1]
!! \details                          INTERNAL ENERGY INTEGRATION FOR E[n+1] : LAST PART USING P[n+1] CONTRIBUTION
!! \details                            (second order integration dE = -P.dV where P = 0.5(P[n+1] + P[n]) )
!! \details  COLLOCATED SCHEME
!! \details     EOSMAIN / IFLG = 2 : SINGLE PASS FOR P[n+1] AND DERIVATIVES
!----------------------------------------------------------------------------
C-----------------------------------------------
C   M o d u l e s
C-----------------------------------------------
        USE constant_mod , ONLY : zero, em15, half, one, three_half, two, three, three100
C-----------------------------------------------
C   I m p l i c i t   T y p e s
C-----------------------------------------------
        IMPLICIT NONE
#include      "my_real.inc"
C-----------------------------------------------
C   C o m m o n   B l o c k s
C-----------------------------------------------
#include      "param_c.inc"
#include      "com04_c.inc"
#include      "com06_c.inc"
#include      "com08_c.inc"
#include      "vect01_c.inc"
#include      "scr06_c.inc"
C-----------------------------------------------
C   D u m m y   A r g u m e n t s
C-----------------------------------------------
        INTEGER MAT(NEL), IFLAG, NEL
        my_real pm(npropm,nummat),
     .          off(nel) , eint(nel), mu(nel)  ,
     .          mu2(nel) , espe(nel), dvol(nel), df(nel)   ,
     .          vnew(nel), pnew(nel), dpdm(nel), dpde(nel)
C-----------------------------------------------
C   L o c a l   V a r i a b l e s
C-----------------------------------------------
        INTEGER I, MX
        my_real aa, bb, dvv, eta, xx, gx, pres, cc, expa, ee
        my_real c1(nel),c2(nel),c3(nel),t1(nel),t2(nel), g0(nel),esubl(nel),hh(nel),pc(nel),psh(nel)
C--------------------------------------------------------------------
        IF(iflag == 0) THEN
          DO i=1,nel
            mx      = mat(i)
            c1(i)   = pm(32,mx)
            c2(i)   = pm(33,mx)
            c3(i)   = pm(34,mx)
            t1(i)   = pm(35,mx)
            t2(i)   = pm(36,mx)
            pc(i)   = pm(37,mx)
            esubl(i)= pm(160,mx)
            g0(i)   = pm(161,mx)
            hh(i)   = pm(162,mx)
            psh(i)  = pm(88,mx)
          ENDDO
          DO i=1,nel
            xx =mu(i)/(one+mu(i))
            IF(mu(i) >= zero) THEN
              aa=(c1(i)+c3(i)*mu2(i))*mu(i)+c2(i)*mu2(i)
              gx=one-g0(i)*half*xx
              bb=g0(i)
              pres=max(aa*gx+bb*espe(i),pc(i))*off(i)
              dpdm(i)=(c1(i)+two*c2(i)*mu(i)+three*c3(i)*mu2(i))*gx+g0(i)*df(i)*df(i)*(pres-half*aa)
            ELSEIF(espe(i) < esubl(i))THEN
              aa=(t1(i)+t2(i)*mu(i))*mu(i)
              gx=one-g0(i)*half*xx
              bb=g0(i)
              pres=max(aa*gx+bb*espe(i),pc(i))*off(i)
              dpdm(i)=(t1(i)+two*t2(i)*mu(i))*gx+g0(i)*df(i)*df(i)*(pres-half*aa)
            ELSE
              eta=one+mu(i)
              ee=sqrt(eta)
              bb=(hh(i)+(g0(i)-hh(i))*ee)*eta
              cc= c1(i)/(g0(i)*esubl(i))
              expa=exp(cc*xx)
              aa= bb*esubl(i)*(expa-one)
              pres=max(aa+bb*espe(i),pc(i))*off(i)
              dpdm(i)=bb*df(i)*df(i)*(pres+esubl(i)*expa*cc) +(espe(i)+esubl(i)*(expa-one))*(hh(i)+three_half*ee*(g0(i)-hh(i)))
            ENDIF
            dpde(i)=bb
            pnew(i) = max(pres,pc(i))*off(i)! P(mu[n+1],E[n])
          ENDDO
 
        ELSEIF(iflag == 1) THEN
          DO i=1,nel
            mx      = mat(i)
            c1(i)   = pm(32,mx)
            c2(i)   = pm(33,mx)
            c3(i)   = pm(34,mx)
            t1(i)   = pm(35,mx)
            t2(i)   = pm(36,mx)
            pc(i)   = pm(37,mx)
            esubl(i)= pm(160,mx)
            g0(i)   = pm(161,mx)
            hh(i)   = pm(162,mx)
            psh(i)  = pm( 88,mx)
          ENDDO
          DO i=1,nel
            dvv=half*dvol(i)*df(i) / max(em15,vnew(i))
            xx =mu(i)/(one+mu(i))
            IF(mu(i) >= zero) THEN
              aa=(c1(i)+c3(i)*mu2(i))*mu(i)+c2(i)*mu2(i)
              aa=aa*(one-g0(i)*half*xx)
              bb=g0(i)
            ELSEIF(espe(i) < esubl(i))THEN
              aa=(t1(i)+t2(i)*mu(i))*mu(i)
              aa=aa*(one-g0(i)*half*xx)
              bb=g0(i)
            ELSE
              eta=one+mu(i)
              bb=(hh(i)+(g0(i)-hh(i))*sqrt(eta))*eta
              cc=c1(i)/(g0(i)*esubl(i))
              expa=exp(cc*xx)
              aa=bb*esubl(i)*(expa-one)
            ENDIF
            dpde(i)=bb
            pnew(i)=(aa +bb*espe(i))/(one+ bb*dvv)
            pnew(i)=max(pnew(i),pc(i))*off(i)! P(mu[n+1],E[n+1])
            eint(i)=eint(i)-half*dvol(i)*pnew(i)
          ENDDO
 
        ELSEIF(iflag == 2) THEN
          DO i=1, nel
            mx      = mat(i)
            c1(i)   = pm(32,mx)
            c2(i)   = pm(33,mx)
            c3(i)   = pm(34,mx)
            t1(i)   = pm(35,mx)
            t2(i)   = pm(36,mx)
            pc(i)   = pm(37,mx)
            esubl(i)= pm(160,mx)
            g0(i)   = pm(161,mx)
            hh(i)   = pm(162,mx)
          ENDDO
          DO i=1, nel
            IF (vnew(i) > zero) THEN
              xx =mu(i)/(one+mu(i))
              IF(mu(i) >= zero) THEN
                aa=(c1(i)+c3(i)*mu2(i))*mu(i)+c2(i)*mu2(i)
                gx=one-g0(i)*half*xx
                bb=g0(i)
                pres=max(aa*gx+bb*espe(i),pc(i))*off(i)
                dpdm(i)=(c1(i)+two*c2(i)*mu(i)+three*c3(i)*mu2(i))*gx+g0(i)*df(i)*df(i)*(pres-half*aa)
              ELSEIF(espe(i)<esubl(i))THEN
                aa=(t1(i)+t2(i)*mu(i))*mu(i)
                gx=one-g0(i)*half*xx
                bb=g0(i)
                pres=max(aa*gx+bb*espe(i),pc(i))*off(i)
                dpdm(i)=(t1(i)+two*t2(i)*mu(i))*gx+g0(i)*df(i)*df(i)*(pres-half*aa)
              ELSE
                eta=one+mu(i)
                ee=sqrt(eta)
                bb=(hh(i)+(g0(i)-hh(i))*ee)*eta
                cc= c1(i)/(g0(i)*esubl(i))
                expa=exp(cc*xx)
                aa= bb*esubl(i)*(expa-one)
                pres=max(aa+bb*espe(i),pc(i))*off(i)
                dpdm(i)=bb*df(i)*df(i)*(pres+esubl(i)*expa*cc) +
     .               (espe(i)+esubl(i)*(expa-one))*(hh(i)+three_half*ee*(g0(i)-hh(i)))
              ENDIF
              dpde(i)=bb
              pnew(i) = pres
            ENDIF
          ENDDO
        ENDIF
C-----------------------------------------------
        RETURN