Detailed Description

The equation of state using the expressions of Roquet et al. that are used in NEMO.

Data Types
interface	calculate_density_derivs_nemo
	For a given thermodynamic state, return the derivatives of density with conservative temperature and absolute salinity, the expressions derived for use with NEMO. More...

interface	calculate_density_nemo
	Compute the in situ density of sea water ([kg m-3]), or its anomaly with respect to a reference density, from absolute salinity (g/kg), conservative temperature (in deg C), and pressure [Pa], using the expressions derived for use with NEMO. More...

Variables
real, parameter	pa2db = 1.e-4
	Conversion factor between Pa and dbar.

real, parameter	rdeltas = 32.
	Parameters in the NEMO equation of state.

real, parameter	r1_s0 = 0.875/35.16504
	Parameters in the NEMO equation of state.

real, parameter	r1_t0 = 1./40.
	Parameters in the NEMO equation of state.

real, parameter	r1_p0 = 1.e-4
	Parameters in the NEMO equation of state.

real, parameter	r00 = 4.6494977072e+01
	Parameters in the NEMO equation of state.

real, parameter	r01 = -5.2099962525
	Parameters in the NEMO equation of state.

real, parameter	r02 = 2.2601900708e-01
	Parameters in the NEMO equation of state.

real, parameter	r03 = 6.4326772569e-02
	Parameters in the NEMO equation of state.

real, parameter	r04 = 1.5616995503e-02
	Parameters in the NEMO equation of state.

real, parameter	r05 = -1.7243708991e-03
	Parameters in the NEMO equation of state.

real, parameter	eos000 = 8.0189615746e+02
	Parameters in the NEMO equation of state.

real, parameter	eos100 = 8.6672408165e+02
	Parameters in the NEMO equation of state.

real, parameter	eos200 = -1.7864682637e+03
	Parameters in the NEMO equation of state.

real, parameter	eos300 = 2.0375295546e+03
	Parameters in the NEMO equation of state.

real, parameter	eos400 = -1.2849161071e+03
	Parameters in the NEMO equation of state.

real, parameter	eos500 = 4.3227585684e+02
	Parameters in the NEMO equation of state.

real, parameter	eos600 = -6.0579916612e+01
	Parameters in the NEMO equation of state.

real, parameter	eos010 = 2.6010145068e+01
	Parameters in the NEMO equation of state.

real, parameter	eos110 = -6.5281885265e+01
	Parameters in the NEMO equation of state.

real, parameter	eos210 = 8.1770425108e+01
	Parameters in the NEMO equation of state.

real, parameter	eos310 = -5.6888046321e+01
	Parameters in the NEMO equation of state.

real, parameter	eos410 = 1.7681814114e+01
	Parameters in the NEMO equation of state.

real, parameter	eos510 = -1.9193502195
	Parameters in the NEMO equation of state.

real, parameter	eos020 = -3.7074170417e+01
	Parameters in the NEMO equation of state.

real, parameter	eos120 = 6.1548258127e+01
	Parameters in the NEMO equation of state.

real, parameter	eos220 = -6.0362551501e+01
	Parameters in the NEMO equation of state.

real, parameter	eos320 = 2.9130021253e+01
	Parameters in the NEMO equation of state.

real, parameter	eos420 = -5.4723692739
	Parameters in the NEMO equation of state.

real, parameter	eos030 = 2.1661789529e+01
	Parameters in the NEMO equation of state.

real, parameter	eos130 = -3.3449108469e+01
	Parameters in the NEMO equation of state.

real, parameter	eos230 = 1.9717078466e+01
	Parameters in the NEMO equation of state.

real, parameter	eos330 = -3.1742946532
	Parameters in the NEMO equation of state.

real, parameter	eos040 = -8.3627885467
	Parameters in the NEMO equation of state.

real, parameter	eos140 = 1.1311538584e+01
	Parameters in the NEMO equation of state.

real, parameter	eos240 = -5.3563304045
	Parameters in the NEMO equation of state.

real, parameter	eos050 = 5.4048723791e-01
	Parameters in the NEMO equation of state.

real, parameter	eos150 = 4.8169980163e-01
	Parameters in the NEMO equation of state.

real, parameter	eos060 = -1.9083568888e-01
	Parameters in the NEMO equation of state.

real, parameter	eos001 = 1.9681925209e+01
	Parameters in the NEMO equation of state.

real, parameter	eos101 = -4.2549998214e+01
	Parameters in the NEMO equation of state.

real, parameter	eos201 = 5.0774768218e+01
	Parameters in the NEMO equation of state.

real, parameter	eos301 = -3.0938076334e+01
	Parameters in the NEMO equation of state.

real, parameter	eos401 = 6.6051753097
	Parameters in the NEMO equation of state.

real, parameter	eos011 = -1.3336301113e+01
	Parameters in the NEMO equation of state.

real, parameter	eos111 = -4.4870114575
	Parameters in the NEMO equation of state.

real, parameter	eos211 = 5.0042598061
	Parameters in the NEMO equation of state.

real, parameter	eos311 = -6.5399043664e-01
	Parameters in the NEMO equation of state.

real, parameter	eos021 = 6.7080479603
	Parameters in the NEMO equation of state.

real, parameter	eos121 = 3.5063081279
	Parameters in the NEMO equation of state.

real, parameter	eos221 = -1.8795372996
	Parameters in the NEMO equation of state.

real, parameter	eos031 = -2.4649669534
	Parameters in the NEMO equation of state.

real, parameter	eos131 = -5.5077101279e-01
	Parameters in the NEMO equation of state.

real, parameter	eos041 = 5.5927935970e-01
	Parameters in the NEMO equation of state.

real, parameter	eos002 = 2.0660924175
	Parameters in the NEMO equation of state.

real, parameter	eos102 = -4.9527603989
	Parameters in the NEMO equation of state.

real, parameter	eos202 = 2.5019633244
	Parameters in the NEMO equation of state.

real, parameter	eos012 = 2.0564311499
	Parameters in the NEMO equation of state.

real, parameter	eos112 = -2.1311365518e-01
	Parameters in the NEMO equation of state.

real, parameter	eos022 = -1.2419983026
	Parameters in the NEMO equation of state.

real, parameter	eos003 = -2.3342758797e-02
	Parameters in the NEMO equation of state.

real, parameter	eos103 = -1.8507636718e-02
	Parameters in the NEMO equation of state.

real, parameter	eos013 = 3.7969820455e-01
	Parameters in the NEMO equation of state.

real, parameter	alp000 = -6.5025362670e-01
	Parameters in the NEMO equation of state.

real, parameter	alp100 = 1.6320471316
	Parameters in the NEMO equation of state.

real, parameter	alp200 = -2.0442606277
	Parameters in the NEMO equation of state.

real, parameter	alp300 = 1.4222011580
	Parameters in the NEMO equation of state.

real, parameter	alp400 = -4.4204535284e-01
	Parameters in the NEMO equation of state.

real, parameter	alp500 = 4.7983755487e-02
	Parameters in the NEMO equation of state.

real, parameter	alp010 = 1.8537085209
	Parameters in the NEMO equation of state.

real, parameter	alp110 = -3.0774129064
	Parameters in the NEMO equation of state.

real, parameter	alp210 = 3.0181275751
	Parameters in the NEMO equation of state.

real, parameter	alp310 = -1.4565010626
	Parameters in the NEMO equation of state.

real, parameter	alp410 = 2.7361846370e-01
	Parameters in the NEMO equation of state.

real, parameter	alp020 = -1.6246342147
	Parameters in the NEMO equation of state.

real, parameter	alp120 = 2.5086831352
	Parameters in the NEMO equation of state.

real, parameter	alp220 = -1.4787808849
	Parameters in the NEMO equation of state.

real, parameter	alp320 = 2.3807209899e-01
	Parameters in the NEMO equation of state.

real, parameter	alp030 = 8.3627885467e-01
	Parameters in the NEMO equation of state.

real, parameter	alp130 = -1.1311538584
	Parameters in the NEMO equation of state.

real, parameter	alp230 = 5.3563304045e-01
	Parameters in the NEMO equation of state.

real, parameter	alp040 = -6.7560904739e-02
	Parameters in the NEMO equation of state.

real, parameter	alp140 = -6.0212475204e-02
	Parameters in the NEMO equation of state.

real, parameter	alp050 = 2.8625353333e-02
	Parameters in the NEMO equation of state.

real, parameter	alp001 = 3.3340752782e-01
	Parameters in the NEMO equation of state.

real, parameter	alp101 = 1.1217528644e-01
	Parameters in the NEMO equation of state.

real, parameter	alp201 = -1.2510649515e-01
	Parameters in the NEMO equation of state.

real, parameter	alp301 = 1.6349760916e-02
	Parameters in the NEMO equation of state.

real, parameter	alp011 = -3.3540239802e-01
	Parameters in the NEMO equation of state.

real, parameter	alp111 = -1.7531540640e-01
	Parameters in the NEMO equation of state.

real, parameter	alp211 = 9.3976864981e-02
	Parameters in the NEMO equation of state.

real, parameter	alp021 = 1.8487252150e-01
	Parameters in the NEMO equation of state.

real, parameter	alp121 = 4.1307825959e-02
	Parameters in the NEMO equation of state.

real, parameter	alp031 = -5.5927935970e-02
	Parameters in the NEMO equation of state.

real, parameter	alp002 = -5.1410778748e-02
	Parameters in the NEMO equation of state.

real, parameter	alp102 = 5.3278413794e-03
	Parameters in the NEMO equation of state.

real, parameter	alp012 = 6.2099915132e-02
	Parameters in the NEMO equation of state.

real, parameter	alp003 = -9.4924551138e-03
	Parameters in the NEMO equation of state.

real, parameter	bet000 = 1.0783203594e+01
	Parameters in the NEMO equation of state.

real, parameter	bet100 = -4.4452095908e+01
	Parameters in the NEMO equation of state.

real, parameter	bet200 = 7.6048755820e+01
	Parameters in the NEMO equation of state.

real, parameter	bet300 = -6.3944280668e+01
	Parameters in the NEMO equation of state.

real, parameter	bet400 = 2.6890441098e+01
	Parameters in the NEMO equation of state.

real, parameter	bet500 = -4.5221697773
	Parameters in the NEMO equation of state.

real, parameter	bet010 = -8.1219372432e-01
	Parameters in the NEMO equation of state.

real, parameter	bet110 = 2.0346663041
	Parameters in the NEMO equation of state.

real, parameter	bet210 = -2.1232895170
	Parameters in the NEMO equation of state.

real, parameter	bet310 = 8.7994140485e-01
	Parameters in the NEMO equation of state.

real, parameter	bet410 = -1.1939638360e-01
	Parameters in the NEMO equation of state.

real, parameter	bet020 = 7.6574242289e-01
	Parameters in the NEMO equation of state.

real, parameter	bet120 = -1.5019813020
	Parameters in the NEMO equation of state.

real, parameter	bet220 = 1.0872489522
	Parameters in the NEMO equation of state.

real, parameter	bet320 = -2.7233429080e-01
	Parameters in the NEMO equation of state.

real, parameter	bet030 = -4.1615152308e-01
	Parameters in the NEMO equation of state.

real, parameter	bet130 = 4.9061350869e-01
	Parameters in the NEMO equation of state.

real, parameter	bet230 = -1.1847737788e-01
	Parameters in the NEMO equation of state.

real, parameter	bet040 = 1.4073062708e-01
	Parameters in the NEMO equation of state.

real, parameter	bet140 = -1.3327978879e-01
	Parameters in the NEMO equation of state.

real, parameter	bet050 = 5.9929880134e-03
	Parameters in the NEMO equation of state.

real, parameter	bet001 = -5.2937873009e-01
	Parameters in the NEMO equation of state.

real, parameter	bet101 = 1.2634116779
	Parameters in the NEMO equation of state.

real, parameter	bet201 = -1.1547328025
	Parameters in the NEMO equation of state.

real, parameter	bet301 = 3.2870876279e-01
	Parameters in the NEMO equation of state.

real, parameter	bet011 = -5.5824407214e-02
	Parameters in the NEMO equation of state.

real, parameter	bet111 = 1.2451933313e-01
	Parameters in the NEMO equation of state.

real, parameter	bet211 = -2.4409539932e-02
	Parameters in the NEMO equation of state.

real, parameter	bet021 = 4.3623149752e-02
	Parameters in the NEMO equation of state.

real, parameter	bet121 = -4.6767901790e-02
	Parameters in the NEMO equation of state.

real, parameter	bet031 = -6.8523260060e-03
	Parameters in the NEMO equation of state.

real, parameter	bet002 = -6.1618945251e-02
	Parameters in the NEMO equation of state.

real, parameter	bet102 = 6.2255521644e-02
	Parameters in the NEMO equation of state.

real, parameter	bet012 = -2.6514181169e-03
	Parameters in the NEMO equation of state.

real, parameter	bet003 = -2.3025968587e-04
	Parameters in the NEMO equation of state.

subroutine, public	calculate_density_scalar_nemo (T, S, pressure, rho, rho_ref)
	This subroutine computes the in situ density of sea water (rho in [kg m-3]) from absolute salinity (S [g kg-1]), conservative temperature (T [degC]), and pressure [Pa]. It uses the expressions derived for use with NEMO. More...

subroutine, public	calculate_density_array_nemo (T, S, pressure, rho, start, npts, rho_ref)
	This subroutine computes the in situ density of sea water (rho in [kg m-3]) from absolute salinity (S [g kg-1]), conservative temperature (T [degC]), and pressure [Pa]. It uses the expressions derived for use with NEMO. More...

subroutine	calculate_density_derivs_array_nemo (T, S, pressure, drho_dT, drho_dS, start, npts)
	For a given thermodynamic state, calculate the derivatives of density with conservative temperature and absolute salinity, using the expressions derived for use with NEMO. More...

subroutine	calculate_density_derivs_scalar_nemo (T, S, pressure, drho_dt, drho_ds)
	Wrapper to calculate_density_derivs_array for scalar inputs. More...

subroutine, public	calculate_compress_nemo (T, S, pressure, rho, drho_dp, start, npts)
	Compute the in situ density of sea water (rho in [kg m-3]) and the compressibility (drho/dp = C_sound^-2, stored as drho_dp [s2 m-2]) from absolute salinity (sal in g/kg), conservative temperature (T [degC]), and pressure [Pa], using the expressions derived for use with NEMO. More...

Function/Subroutine Documentation

◆ calculate_compress_nemo()

subroutine, public mom_eos_nemo::calculate_compress_nemo	(	real, dimension(:), intent(in)	T,
		real, dimension(:), intent(in)	S,
		real, dimension(:), intent(in)	pressure,
		real, dimension(:), intent(out)	rho,
		real, dimension(:), intent(out)	drho_dp,
		integer, intent(in)	start,
		integer, intent(in)	npts
	)

Compute the in situ density of sea water (rho in [kg m-3]) and the compressibility (drho/dp = C_sound^-2, stored as drho_dp [s2 m-2]) from absolute salinity (sal in g/kg), conservative temperature (T [degC]), and pressure [Pa], using the expressions derived for use with NEMO.

Parameters

[in]	t	Conservative temperature [degC].
[in]	s	Absolute salinity [g/kg].
[in]	pressure	pressure [Pa].
[out]	rho	In situ density [kg m-3].
[out]	drho_dp	The partial derivative of density with pressure (also the inverse of the square of sound speed) [s2 m-2].
[in]	start	The starting point in the arrays.
[in]	npts	The number of values to calculate.

Definition at line 369 of file MOM_EOS_NEMO.F90.

   real,    intent(in),  dimension(:) :: T        !< Conservative temperature [degC].
   real,    intent(in),  dimension(:) :: S        !< Absolute salinity [g/kg].
   real,    intent(in),  dimension(:) :: pressure !< pressure [Pa].
   real,    intent(out), dimension(:) :: rho      !< In situ density [kg m-3].
   real,    intent(out), dimension(:) :: drho_dp  !< The partial derivative of density with pressure
                                                  !! (also the inverse of the square of sound speed)
                                                  !! [s2 m-2].
   integer, intent(in)                :: start    !< The starting point in the arrays.
   integer, intent(in)                :: npts     !< The number of values to calculate.
  
   ! Local variables
   real ::  zs,zt,zp
   integer :: j
  
   call calculate_density_array_nemo(t, s, pressure, rho, start, npts)
   !
   !NOTE: The following calculates the TEOS10 approximation to compressibility
   !      since the corresponding NEMO approximation is not available yet.
   !
   do j=start,start+npts-1
    !Conversions
     zs = s(j) !gsw_sr_from_sp(S(j))       !Convert practical salinity to absolute salinity
     zt = t(j) !gsw_ct_from_pt(S(j),T(j))  !Convert potantial temp to conservative temp
     zp = pressure(j)* pa2db         !Convert pressure from Pascal to decibar
     call gsw_rho_first_derivatives(zs,zt,zp, drho_dp=drho_dp(j))
  enddo

◆ calculate_density_array_nemo()

subroutine, public mom_eos_nemo::calculate_density_array_nemo	(	real, dimension(:), intent(in)	T,
		real, dimension(:), intent(in)	S,
		real, dimension(:), intent(in)	pressure,
		real, dimension(:), intent(out)	rho,
		integer, intent(in)	start,
		integer, intent(in)	npts,
		real, intent(in), optional	rho_ref
	)

This subroutine computes the in situ density of sea water (rho in [kg m-3]) from absolute salinity (S [g kg-1]), conservative temperature (T [degC]), and pressure [Pa]. It uses the expressions derived for use with NEMO.

Parameters

[in]	t	Conservative temperature [degC].
[in]	s	Absolute salinity [g kg-1].
[in]	pressure	pressure [Pa].
[out]	rho	in situ density [kg m-3].
[in]	start	the starting point in the arrays.
[in]	npts	the number of values to calculate.
[in]	rho_ref	A reference density [kg m-3].

Definition at line 206 of file MOM_EOS_NEMO.F90.

   real, dimension(:), intent(in)  :: T        !< Conservative temperature [degC].
   real, dimension(:), intent(in)  :: S        !< Absolute salinity [g kg-1].
   real, dimension(:), intent(in)  :: pressure !< pressure [Pa].
   real, dimension(:), intent(out) :: rho      !< in situ density [kg m-3].
   integer,            intent(in)  :: start    !< the starting point in the arrays.
   integer,            intent(in)  :: npts     !< the number of values to calculate.
   real,     optional, intent(in)  :: rho_ref  !< A reference density [kg m-3].
  
   ! Local variables
   real :: zp, zt, zh, zs, zr0, zn, zn0, zn1, zn2, zn3, zs0
   integer :: j
  
   do j=start,start+npts-1
     !Conversions
     zs = s(j) !gsw_sr_from_sp(S(j))       !Convert practical salinity to absolute salinity
     zt = t(j) !gsw_ct_from_pt(S(j),T(j))  !Convert potential temp to conservative temp
     zp = pressure(j)* pa2db         !Convert pressure from Pascal to decibar
  
     !The following algorithm was provided by Roquet in a private communication.
     !It is not necessarily the algorithm used in NEMO ocean!
     zp  = zp * r1_p0 !pressure
     zt  = zt * r1_t0 !temperature
     zs  = sqrt( abs( zs + rdeltas ) * r1_s0 )   ! square root salinity
  
     zn3 = eos013*zt   &
        &   + eos103*zs+eos003
  
     zn2 = (eos022*zt   &
        &   + eos112*zs+eos012)*zt   &
        &   + (eos202*zs+eos102)*zs+eos002
  
     zn1 = (((eos041*zt   &
        &   + eos131*zs+eos031)*zt   &
        &   + (eos221*zs+eos121)*zs+eos021)*zt   &
        &   + ((eos311*zs+eos211)*zs+eos111)*zs+eos011)*zt   &
        &   + (((eos401*zs+eos301)*zs+eos201)*zs+eos101)*zs+eos001
  
     zn0 = (((((eos060*zt   &
        &   + eos150*zs+eos050)*zt   &
        &   + (eos240*zs+eos140)*zs+eos040)*zt   &
        &   + ((eos330*zs+eos230)*zs+eos130)*zs+eos030)*zt   &
        &   + (((eos420*zs+eos320)*zs+eos220)*zs+eos120)*zs+eos020)*zt   &
        &   + ((((eos510*zs+eos410)*zs+eos310)*zs+eos210)*zs+eos110)*zs+eos010)*zt
  
     zs0 = (((((eos600*zs+eos500)*zs+eos400)*zs+eos300)*zs+eos200)*zs+eos100)*zs + eos000
  
     zr0 = (((((r05 * zp+r04) * zp+r03 ) * zp+r02 ) * zp+r01) * zp+r00) * zp
  
     if (present(rho_ref)) then
       zn  = ( ( zn3 * zp + zn2 ) * zp + zn1 ) * zp + (zn0 + (zs0 - rho_ref))
       rho(j) =  ( zn + zr0 ) ! density
     else
       zn  = ( ( zn3 * zp + zn2 ) * zp + zn1 ) * zp + (zn0 + zs0)
       rho(j) =  ( zn + zr0 ) ! density
     endif
  
  enddo

◆ calculate_density_derivs_array_nemo()

subroutine mom_eos_nemo::calculate_density_derivs_array_nemo	(	real, dimension(:), intent(in)	T,
		real, dimension(:), intent(in)	S,
		real, dimension(:), intent(in)	pressure,
		real, dimension(:), intent(out)	drho_dT,
		real, dimension(:), intent(out)	drho_dS,
		integer, intent(in)	start,
		integer, intent(in)	npts
	)

private

For a given thermodynamic state, calculate the derivatives of density with conservative temperature and absolute salinity, using the expressions derived for use with NEMO.

Parameters

[in]	t	Conservative temperature [degC].
[in]	s	Absolute salinity [g kg-1].
[in]	pressure	pressure [Pa].
[out]	drho_dt	The partial derivative of density with potential temperature [kg m-3 degC-1].
[out]	drho_ds	The partial derivative of density with salinity, in [kg m-3 ppt-1].
[in]	start	The starting point in the arrays.
[in]	npts	The number of values to calculate.

Definition at line 268 of file MOM_EOS_NEMO.F90.

   real,    intent(in),  dimension(:) :: T        !< Conservative temperature [degC].
   real,    intent(in),  dimension(:) :: S        !< Absolute salinity [g kg-1].
   real,    intent(in),  dimension(:) :: pressure !< pressure [Pa].
   real,    intent(out), dimension(:) :: drho_dT  !< The partial derivative of density with potential
                                                  !! temperature [kg m-3 degC-1].
   real,    intent(out), dimension(:) :: drho_dS  !< The partial derivative of density with salinity,
                                                  !! in [kg m-3 ppt-1].
   integer, intent(in)                :: start    !< The starting point in the arrays.
   integer, intent(in)                :: npts     !< The number of values to calculate.
  
   ! Local variables
   real :: zp,zt , zh , zs , zr0, zn , zn0, zn1, zn2, zn3
   integer :: j
  
   do j=start,start+npts-1
     !Conversions
     zs = s(j) !gsw_sr_from_sp(S(j))       !Convert practical salinity to absolute salinity
     zt = t(j) !gsw_ct_from_pt(S(j),T(j))  !Convert potantial temp to conservative temp
     zp = pressure(j)* pa2db         !Convert pressure from Pascal to decibar
  
     !The following algorithm was provided by Roquet in a private communication.
     !It is not necessarily the algorithm used in NEMO ocean!
     zp  = zp * r1_p0  ! pressure (first converted to decibar)
     zt  = zt * r1_t0                ! temperature
     zs  = sqrt( abs( zs + rdeltas ) * r1_s0 )   ! square root salinity
     !
     ! alpha
     zn3 = alp003
     !
     zn2 = alp012*zt + alp102*zs+alp002
     !
     zn1 = ((alp031*zt   &
        &   + alp121*zs+alp021)*zt   &
        &   + (alp211*zs+alp111)*zs+alp011)*zt   &
        &   + ((alp301*zs+alp201)*zs+alp101)*zs+alp001
        !
     zn0 = ((((alp050*zt   &
        &   + alp140*zs+alp040)*zt   &
        &   + (alp230*zs+alp130)*zs+alp030)*zt   &
        &   + ((alp320*zs+alp220)*zs+alp120)*zs+alp020)*zt   &
        &   + (((alp410*zs+alp310)*zs+alp210)*zs+alp110)*zs+alp010)*zt   &
        &   + ((((alp500*zs+alp400)*zs+alp300)*zs+alp200)*zs+alp100)*zs+alp000
        !
     zn  = ( ( zn3 * zp + zn2 ) * zp + zn1 ) * zp + zn0
     !
     drho_dt(j) = -zn
     !
     ! beta
     !
     zn3 = bet003
     !
     zn2 = bet012*zt + bet102*zs+bet002
     !
     zn1 = ((bet031*zt   &
        &   + bet121*zs+bet021)*zt   &
        &   + (bet211*zs+bet111)*zs+bet011)*zt   &
        &   + ((bet301*zs+bet201)*zs+bet101)*zs+bet001
        !
     zn0 = ((((bet050*zt   &
        &   + bet140*zs+bet040)*zt   &
        &   + (bet230*zs+bet130)*zs+bet030)*zt   &
        &   + ((bet320*zs+bet220)*zs+bet120)*zs+bet020)*zt   &
        &   + (((bet410*zs+bet310)*zs+bet210)*zs+bet110)*zs+bet010)*zt   &
        &   + ((((bet500*zs+bet400)*zs+bet300)*zs+bet200)*zs+bet100)*zs+bet000
        !
     zn  = ( ( zn3 * zp + zn2 ) * zp + zn1 ) * zp + zn0
     !
     drho_ds(j) = zn / zs
   enddo
  

◆ calculate_density_derivs_scalar_nemo()

subroutine mom_eos_nemo::calculate_density_derivs_scalar_nemo	(	real, intent(in)	T,
		real, intent(in)	S,
		real, intent(in)	pressure,
		real, intent(out)	drho_dt,
		real, intent(out)	drho_ds
	)

private

Wrapper to calculate_density_derivs_array for scalar inputs.

Parameters

[in]	t	Potential temperature relative to the surface [degC].
[in]	s	Salinity [g kg-1].
[in]	pressure	Pressure [Pa].
[out]	drho_dt	The partial derivative of density with potential temperature [kg m-3 degC-1].
[out]	drho_ds	The partial derivative of density with salinity, in [kg m-3 ppt-1].

Definition at line 342 of file MOM_EOS_NEMO.F90.

   real,    intent(in)  :: T        !< Potential temperature relative to the surface [degC].
   real,    intent(in)  :: S        !< Salinity [g kg-1].
   real,    intent(in)  :: pressure !< Pressure [Pa].
   real,    intent(out) :: drho_dT  !< The partial derivative of density with potential
                                    !! temperature [kg m-3 degC-1].
   real,    intent(out) :: drho_dS  !< The partial derivative of density with salinity,
                                    !! in [kg m-3 ppt-1].
   ! Local variables
   real :: al0, p0, lambda
   integer :: j
   real, dimension(1) :: T0, S0, pressure0
   real, dimension(1) :: drdt0, drds0
  
   t0(1) = t
   s0(1) = s
   pressure0(1) = pressure
  
   call calculate_density_derivs_array_nemo(t0, s0, pressure0, drdt0, drds0, 1, 1)
   drho_dt = drdt0(1)
   drho_ds = drds0(1)

◆ calculate_density_scalar_nemo()

subroutine, public mom_eos_nemo::calculate_density_scalar_nemo	(	real, intent(in)	T,
		real, intent(in)	S,
		real, intent(in)	pressure,
		real, intent(out)	rho,
		real, intent(in), optional	rho_ref
	)

This subroutine computes the in situ density of sea water (rho in [kg m-3]) from absolute salinity (S [g kg-1]), conservative temperature (T [degC]), and pressure [Pa]. It uses the expressions derived for use with NEMO.

Parameters

[in]	t	Conservative temperature [degC].
[in]	s	Absolute salinity [g kg-1].
[in]	pressure	pressure [Pa].
[out]	rho	In situ density [kg m-3].
[in]	rho_ref	A reference density [kg m-3].

Definition at line 181 of file MOM_EOS_NEMO.F90.

   real,           intent(in)  :: T        !< Conservative temperature [degC].
   real,           intent(in)  :: S        !< Absolute salinity [g kg-1].
   real,           intent(in)  :: pressure !< pressure [Pa].
   real,           intent(out) :: rho      !< In situ density [kg m-3].
   real, optional, intent(in)  :: rho_ref  !< A reference density [kg m-3].
  
   real :: al0, p0, lambda
   integer :: j
   real, dimension(1) :: T0, S0, pressure0
   real, dimension(1) :: rho0
  
   t0(1) = t
   s0(1) = s
   pressure0(1) = pressure
  
   call calculate_density_array_nemo(t0, s0, pressure0, rho0, 1, 1, rho_ref)
   rho = rho0(1)
  

Detailed Description

Data Types

Variables

Function/Subroutine Documentation

◆ calculate_compress_nemo()

◆ calculate_density_array_nemo()

◆ calculate_density_derivs_array_nemo()

◆ calculate_density_derivs_scalar_nemo()

◆ calculate_density_scalar_nemo()