- Timestamp:
- 2020-12-02T16:28:39+01:00 (3 years ago)
- Location:
- NEMO/branches/2020/tickets_icb_1900
- Files:
-
- 2 edited
-
. (modified) (1 prop)
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src/OCE/TRA/eosbn2.F90 (modified) (2 diffs)
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NEMO/branches/2020/tickets_icb_1900
- Property svn:externals
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old new 8 8 9 9 # SETTE 10 ^/utils/CI/sette_ MPI3_LoopFusion@13943sette10 ^/utils/CI/sette_wave@13990 sette
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- Property svn:externals
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NEMO/branches/2020/tickets_icb_1900/src/OCE/TRA/eosbn2.F90
r14012 r14016 56 56 ! !! * Interface 57 57 INTERFACE eos 58 MODULE PROCEDURE eos_insitu, eos_insitu_pot, eos_insitu_2d 58 MODULE PROCEDURE eos_insitu, eos_insitu_pot, eos_insitu_2d, eos_insitu_pot_2d 59 59 END INTERFACE 60 60 ! … … 576 576 577 577 578 SUBROUTINE eos_insitu_pot_2d( pts, prhop ) 579 !!---------------------------------------------------------------------- 580 !! *** ROUTINE eos_insitu_pot *** 581 !! 582 !! ** Purpose : Compute the in situ density (ratio rho/rho0) and the 583 !! potential volumic mass (Kg/m3) from potential temperature and 584 !! salinity fields using an equation of state selected in the 585 !! namelist. 586 !! 587 !! ** Action : 588 !! - prhop, the potential volumic mass (Kg/m3) 589 !! 590 !!---------------------------------------------------------------------- 591 REAL(wp), DIMENSION(jpi,jpj,jpts), INTENT(in ) :: pts ! 1 : potential temperature [Celsius] 592 ! ! 2 : salinity [psu] 593 REAL(wp), DIMENSION(jpi,jpj ), INTENT( out) :: prhop ! potential density (surface referenced) 594 ! 595 INTEGER :: ji, jj, jk, jsmp ! dummy loop indices 596 INTEGER :: jdof 597 REAL(wp) :: zt , zh , zstemp, zs , ztm ! local scalars 598 REAL(wp) :: zn , zn0, zn1, zn2, zn3 ! - - 599 REAL(wp), DIMENSION(:), ALLOCATABLE :: zn0_sto, zn_sto, zsign ! local vectors 600 !!---------------------------------------------------------------------- 601 ! 602 IF( ln_timing ) CALL timing_start('eos-pot') 603 ! 604 SELECT CASE ( neos ) 605 ! 606 CASE( np_teos10, np_eos80 ) !== polynomial TEOS-10 / EOS-80 ==! 607 ! 608 DO_2D( 1, 1, 1, 1 ) 609 ! 610 zt = pts (ji,jj,jp_tem) * r1_T0 ! temperature 611 zs = SQRT( ABS( pts(ji,jj,jp_sal) + rdeltaS ) * r1_S0 ) ! square root salinity 612 ztm = tmask(ji,jj,1) ! tmask 613 ! 614 zn0 = (((((EOS060*zt & 615 & + EOS150*zs+EOS050)*zt & 616 & + (EOS240*zs+EOS140)*zs+EOS040)*zt & 617 & + ((EOS330*zs+EOS230)*zs+EOS130)*zs+EOS030)*zt & 618 & + (((EOS420*zs+EOS320)*zs+EOS220)*zs+EOS120)*zs+EOS020)*zt & 619 & + ((((EOS510*zs+EOS410)*zs+EOS310)*zs+EOS210)*zs+EOS110)*zs+EOS010)*zt & 620 & + (((((EOS600*zs+EOS500)*zs+EOS400)*zs+EOS300)*zs+EOS200)*zs+EOS100)*zs+EOS000 621 ! 622 ! 623 prhop(ji,jj) = zn0 * ztm ! potential density referenced at the surface 624 ! 625 END_2D 626 627 CASE( np_seos ) !== simplified EOS ==! 628 ! 629 DO_2D( 1, 1, 1, 1 ) 630 zt = pts (ji,jj,jp_tem) - 10._wp 631 zs = pts (ji,jj,jp_sal) - 35._wp 632 ztm = tmask(ji,jj,1) 633 ! ! potential density referenced at the surface 634 zn = - rn_a0 * ( 1._wp + 0.5_wp*rn_lambda1*zt ) * zt & 635 & + rn_b0 * ( 1._wp - 0.5_wp*rn_lambda2*zs ) * zs & 636 & - rn_nu * zt * zs 637 prhop(ji,jj) = ( rho0 + zn ) * ztm 638 ! 639 END_2D 640 ! 641 END SELECT 642 IF(sn_cfctl%l_prtctl) CALL prt_ctl( tab2d_1=prhop, clinfo1=' pot: ', kdim=1 ) 643 ! 644 IF(sn_cfctl%l_prtctl) CALL prt_ctl( tab2d_1=prhop, clinfo1=' eos-pot: ' ) 645 ! 646 IF( ln_timing ) CALL timing_stop('eos-pot') 647 ! 648 END SUBROUTINE eos_insitu_pot_2d 649 650 578 651 SUBROUTINE rab_3d( pts, pab, Kmm ) 579 652 !!
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