Coeff 11.f90 - calculate the coefficients
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(Difference between revisions)
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!--------------------------------QUICK SCHEME------------------------- | !--------------------------------QUICK SCHEME------------------------- | ||
- | go to 700 | + | go to 700 (now QUICK is "off") |
if( (i.GT.2).AND.(i.LT.NXmax).and.(j.GT.4).AND.(j.LT.NYmax) ) then | if( (i.GT.2).AND.(i.LT.NXmax).and.(j.GT.4).AND.(j.LT.NYmax) ) then | ||
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!-------------------------------- HLPA SCHEME---------------------------- | !-------------------------------- HLPA SCHEME---------------------------- | ||
- | + | go to 600 (now HLPA is "off") | |
! Subroutine HLPA(Uw,Fww,Fw,Fp,Fe,Delta_f) | ! Subroutine HLPA(Uw,Fww,Fw,Fp,Fe,Delta_f) |
Revision as of 17:25, 21 September 2005
!Sample program for solving Smith-Hutton Test using different schemes !of covective terms approximation - Coefficients computing modul !Copyright (C) 2005 Michail Kirichkov !This program is free software; you can redistribute it and/or !modify it under the terms of the GNU General Public License !as published by the Free Software Foundation; either version 2 !of the License, or (at your option) any later version. !This program is distributed in the hope that it will be useful, !but WITHOUT ANY WARRANTY; without even the implied warranty of !MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the !GNU General Public License for more details. !You should have received a copy of the GNU General Public License !along with this program; if not, write to the Free Software !Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. !********************************************************************* Subroutine Coef_1(nf) include 'icomm_1.f90' Dimension F_out(nx,ny),CheckFlux(nx,ny) Character Filename*10 ! calculation of fluxes ! all geometry has rectangular 2D notation Do 100 I= 2,NXmax Do 100 J= 2,NYmax Gam_e = ( Gam(i+1,j ) + Gam(i ,j ) ) * 0.5 Gam_w = ( Gam(i-1,j ) + Gam(i ,j ) ) * 0.5 Gam_s = ( Gam(i ,j-1) + Gam(i ,j ) ) * 0.5 Gam_n = ( Gam(i ,j+1) + Gam(i ,j ) ) * 0.5 Ro_e = ( Ro(i+1,j ) + Ro(i ,j ) ) * 0.5 Ro_w = ( Ro(i-1,j ) + Ro(i ,j ) ) * 0.5 Ro_s = ( Ro(i ,j-1) + Ro(i ,j ) ) * 0.5 Ro_n = ( Ro(i ,j+1) + Ro(i ,j ) ) * 0.5 Area_w = Y_xi(i-1,j-1) Area_e = Y_xi(i ,j-1) Area_s = X_et(i-1,j-1) Area_n = X_et(i-1,j ) Del_e = Del_X_et(i ,j ) Del_w = Del_X_et(i-1,j ) Del_n = Del_Y_xi(i ,j ) Del_s = Del_Y_xi(i ,j-1) ! upwind differencing (all other will be included into the source term) Con_e = Area_e * ( F(i,j,1) + F(i+1,j ,1) ) * 0.5 Con_w = Area_w * ( F(i,j,1) + F(i-1,j ,1) ) * 0.5 Con_s = Area_s * ( F(i,j,2) + F(i ,j-1,2) ) * 0.5 Con_n = Area_n * ( F(i,j,2) + F(i ,j+1,2) ) * 0.5 Diff_e = Area_e * Gam_e / Del_e Diff_w = Area_w * Gam_w / Del_w Diff_s = Area_s * Gam_s / Del_s Diff_n = Area_n * Gam_n / Del_n Flux_e = Area_e * Con_e * Ro_e Flux_w = Area_w * Con_w * Ro_w Flux_s = Area_s * Con_s * Ro_s Flux_n = Area_n * Con_n * Ro_n Aw(i,j) = Diff_w + max( Con_w,0.) Ae(i,j) = Diff_e + max(-1.* Con_e,0.) As(i,j) = Diff_s + max( Con_s,0.) An(i,j) = Diff_n + max(-1.* Con_n,0.) CheckFlux(i,j) = Flux_e - Flux_w + Flux_s - Flux_n Ap(i,j)= Aw(i,j) + Ae(i,j) + An(i,j) + As(i,j) + CheckFlux(i,j) Sp(i,j)= 0. !--------------------------------QUICK SCHEME------------------------- go to 700 (now QUICK is "off") if( (i.GT.2).AND.(i.LT.NXmax).and.(j.GT.4).AND.(j.LT.NYmax) ) then if(Con_e.GT.0.) Sp(i,j) = Sp(i,j) + Con_e * (-1.) * (-0.125 * F(i-1,j ,nf) - 0.25 * F(i ,j ,nf) + 0.375 * F(i-1,j ,nf) ) if(Con_w.GT.0.) Sp(i,j) = Sp(i,j) + Con_w * (-1.) * (-0.125 * F(i-2,j ,nf) - 0.25 * F(i-1,j ,nf) + 0.375 * F(i-2,j ,nf) ) if(Con_n.GT.0.) Sp(i,j) = Sp(i,j) + Con_n * (-1.) * (-0.125 * F(i ,j-1,nf) - 0.25 * F(i ,j ,nf) + 0.375 * F(i ,j-1,nf) ) if(Con_s.GT.0.) Sp(i,j) = Sp(i,j) + Con_s * (-1.) * (-0.125 * F(i ,j-2,nf) - 0.25 * F(i ,j-1,nf) + 0.375 * F(i ,j-2,nf) ) if(Con_e.LT.0.) Sp(i,j) = Sp(i,j) + Con_e * (-1.) * ( 0.375 * F(i ,j ,nf) - 0.25 * F(i+1,j ,nf) - 0.125 * F(i+2,j ,nf) ) if(Con_w.LT.0.) Sp(i,j) = Sp(i,j) + Con_w * (-1.) * ( 0.375 * F(i-1,j ,nf) - 0.25 * F(i ,j ,nf) - 0.125 * F(i+1,j ,nf) ) if(Con_n.LT.0.) Sp(i,j) = Sp(i,j) + Con_n * (-1.) * ( 0.375 * F(i ,j ,nf) - 0.25 * F(i ,j+1,nf) - 0.125 * F(i ,j+2,nf) ) ! if(Con_s.LT.0.) Sp(i,j) = Sp(i,j) + Con_s * (-1.) * ( 0.375 * F(i ,j-1,nf) - 0.25 * F(i ,j+0,nf) - 0.125 * F(i ,j+1,nf) ) end if 700 continue !-------------------------------- HLPA SCHEME---------------------------- go to 600 (now HLPA is "off") ! Subroutine HLPA(Uw,Fww,Fw,Fp,Fe,Delta_f) if( (i.GT.2).AND.(i.LT.NXmax-0).and.(j.GT.2).AND.(j.LT.NYmax-0) ) then !------------------ w face ------------------- Fww = F(i-2,j,nf) Fw = F(i-1,j,nf) Fp = F(i ,j,nf) Fe = F(i+1,j,nf) call HLPA(Con_w,Fww,Fw,Fp,Fe,Delta_f) Sp(i,j) = Sp(i,j) + Con_w * Delta_f !------------------ e face-------------------- Fww = F(i-1,j,nf) Fw = F(i ,j,nf) Fp = F(i+1,j,nf) Fe = F(i+2,j,nf) call HLPA(Con_e,Fww,Fw,Fp,Fe,Delta_f) Sp(i,j) = Sp(i,j) + Con_e * Delta_f * (-1.) !------------------ s face-------------------- Fww = F(i ,j-2,nf) Fw = F(i ,j-1,nf) Fp = F(i ,j ,nf) Fe = F(i ,j+1,nf) call HLPA(Con_s,Fww,Fw,Fp,Fe,Delta_f) Sp(i,j) = Sp(i,j) + Con_s * Delta_f !------------------ n face-------------------- Fww = F(i ,j-1,nf) Fw = F(i ,j ,nf) Fp = F(i ,j+1,nf) Fe = F(i ,j+2,nf) call HLPA(Con_n,Fww,Fw,Fp,Fe,Delta_f) Sp(i,j) = Sp(i,j) + Con_n * Delta_f *(-1.) end if 600 continue !-------------------------------- HLPA SCHEME---------------------------- !------------------------------------------------------------------------ 100 continue !---------------------------------------------------------------- NImax = NXmaxp NJmax = NYmaxp F_out = CheckFlux Filename ='0_Flx.txt' Call Out_array(F_out,NImax,NJmax,Filename) !------------------------------------------------------------------- Return End