high_res_cube/eddy_flux/eh3densjmd95.m

function rho = eh3densjmd95(s,t,p);

% DENSJMD95    Density of sea water
%=========================================================================

% USAGE:  dens = densjmd95(S,T,P)
%
% DESCRIPTION:
%    Density of Sea Water using Jackett and McDougall 1995 (JAOT 12) 
%    polynomial (modified UNESCO polynomial).
%    Modified from 
%
% INPUT:  (all must have same dimensions)
%   S     = salinity    [psu      (PSS-78)]
%   Theta = potential temperature [degree C (IPTS-68)]
%   P     = pressure    [dbar]
%       (P may have dims 1x1, mx1, 1xn or mxn for S(mxn) )
%
% OUTPUT:
%   dens = density  [kg/m^3] 
% 
% AUTHOR:  Martin Losch 2002-08-09  (mlosch@mit.edu)
%
% check value
% S     = 35.5 PSU
% Theta = 3 degC
% P     = 3000 dbar
% rho   = 1041.83267 kg/m^3
%

% Jackett and McDougall, 1995, JAOT 12(4), pp. 381-388

% created by mlosch on 2002-08-09
  
%----------------------
% CHECK INPUT ARGUMENTS
%----------------------
if nargin ~=3
  error('densjmd95.m: Must pass 3 parameters')
end
if length(p) ~= 1
  error('pressure must be a scalar -- otherwise use densjmd95()')
end
  
% convert pressure to bar
p = 0.1 * p;

% coefficients nonlinear equation of state in pressure coordinates for
% 1. density of fresh water at p = 0
eosJMDCFw(1) =  999.842594;
eosJMDCFw(2) =    6.793952e-02;
eosJMDCFw(3) = -  9.095290e-03;
eosJMDCFw(4) =    1.001685e-04;
eosJMDCFw(5) = -  1.120083e-06;
eosJMDCFw(6) =    6.536332e-09;
% 2. density of sea water at p = 0
eosJMDCSw(1) =    8.244930e-01;
eosJMDCSw(2) = -  4.089900e-03;
eosJMDCSw(3) =    7.643800e-05;
eosJMDCSw(4) = -  8.246700e-07;
eosJMDCSw(5) =    5.387500e-09;
eosJMDCSw(6) = -  5.724660e-03;
eosJMDCSw(7) =    1.022700e-04;
eosJMDCSw(8) = -  1.654600e-06;
eosJMDCSw(9) =    4.831400e-04;

t2 = t.*t;
t3 = t2.*t;
t4 = t3.*t;

is = find(s(:) < 0 );
if ~isempty(is)
  warning('found negative salinity values, reset them to NaN');
  s(is) = NaN;
end
s3o2 = s.*sqrt(s);

% density of freshwater at the surface
rho =   eosJMDCFw(1) + eosJMDCFw(2)*t + eosJMDCFw(3)*t2 ...
        + eosJMDCFw(4)*t3 + eosJMDCFw(5)*t4 + eosJMDCFw(6)*t4.*t;
% density of sea water at the surface
rho =  rho ...
       + s.*( eosJMDCSw(1) + eosJMDCSw(2)*t + eosJMDCSw(3)*t2 ...
              + eosJMDCSw(4)*t3 + eosJMDCSw(5)*t4 ) ...
       + s3o2.*( eosJMDCSw(6) + eosJMDCSw(7)*t + eosJMDCSw(8)*t2 ) ...
       + eosJMDCSw(9)*s.*s;

rho = rho./(1 - p./bulkmodjmd95(s,t,p));

return

%=======================================================

function bulkmod = bulkmodjmd95(s,t,p)
%function bulkmod = bulkmodjmd95(s,t,p)
  
dummy = 0;
% coefficients in pressure coordinates for
% 3. secant bulk modulus K of fresh water at p = 0
eosJMDCKFw(1) =   1.965933e+04;
eosJMDCKFw(2) =   1.444304e+02;
eosJMDCKFw(3) = - 1.706103e+00;
eosJMDCKFw(4) =   9.648704e-03;
eosJMDCKFw(5) = - 4.190253e-05;
% 4. secant bulk modulus K of sea water at p = 0
eosJMDCKSw(1) =   5.284855e+01;
eosJMDCKSw(2) = - 3.101089e-01;
eosJMDCKSw(3) =   6.283263e-03;
eosJMDCKSw(4) = - 5.084188e-05;
eosJMDCKSw(5) =   3.886640e-01;
eosJMDCKSw(6) =   9.085835e-03;
eosJMDCKSw(7) = - 4.619924e-04;
% 5. secant bulk modulus K of sea water at p
eosJMDCKP( 1) =   3.186519e+00;
eosJMDCKP( 2) =   2.212276e-02;
eosJMDCKP( 3) = - 2.984642e-04;
eosJMDCKP( 4) =   1.956415e-06;
eosJMDCKP( 5) =   6.704388e-03;
eosJMDCKP( 6) = - 1.847318e-04;
eosJMDCKP( 7) =   2.059331e-07;
eosJMDCKP( 8) =   1.480266e-04;
eosJMDCKP( 9) =   2.102898e-04;
eosJMDCKP(10) = - 1.202016e-05;
eosJMDCKP(11) =   1.394680e-07;
eosJMDCKP(12) = - 2.040237e-06;
eosJMDCKP(13) =   6.128773e-08;
eosJMDCKP(14) =   6.207323e-10;

t2 = t.*t;
t3 = t2.*t;
t4 = t3.*t;

is = find(s(:) < 0 );
if ~isempty(is)
  warning('found negative salinity values, reset them to NaN');
    s(is) = NaN;
end
s3o2 = s.*sqrt(s);
%p = pressure(i,j,k,bi,bj)*SItoBar
p2 = p*p;
% secant bulk modulus of fresh water at the surface
bulkmod = eosJMDCKFw(1) + eosJMDCKFw(2)*t + eosJMDCKFw(3)*t2 ...
          + eosJMDCKFw(4)*t3 + eosJMDCKFw(5)*t4;
% secant bulk modulus of sea water at the surface
bulkmod = bulkmod ...
          + s.*( eosJMDCKSw(1) + eosJMDCKSw(2)*t ...
                 + eosJMDCKSw(3)*t2 + eosJMDCKSw(4)*t3 ) ...
          + s3o2.*( eosJMDCKSw(5) + eosJMDCKSw(6)*t ...
                    + eosJMDCKSw(7)*t2 );
% secant bulk modulus of sea water at pressure p
bulkmod = bulkmod ...
          + p *( eosJMDCKP(1) + eosJMDCKP(2)*t ...
                 + eosJMDCKP(3)*t2 + eosJMDCKP(4)*t3 ) ...
          + p *s.*( eosJMDCKP(5) + eosJMDCKP(6)*t + eosJMDCKP(7)*t2 ) ...
          + p *s3o2*eosJMDCKP(8) ...
          + p2 *( eosJMDCKP(9) + eosJMDCKP(10)*t + eosJMDCKP(11)*t2 ) ...
          + p2 *s.*( eosJMDCKP(12) + eosJMDCKP(13)*t + eosJMDCKP(14)*t2 );

return

1	edhill	1.1	function rho = eh3densjmd95(s,t,p);
2
3			% DENSJMD95 Density of sea water
4			%=========================================================================
5
6			% USAGE: dens = densjmd95(S,T,P)
7			%
8			% DESCRIPTION:
9			% Density of Sea Water using Jackett and McDougall 1995 (JAOT 12)
10			% polynomial (modified UNESCO polynomial).
11			% Modified from
12			%
13			% INPUT: (all must have same dimensions)
14			% S = salinity [psu (PSS-78)]
15			% Theta = potential temperature [degree C (IPTS-68)]
16			% P = pressure [dbar]
17			% (P may have dims 1x1, mx1, 1xn or mxn for S(mxn) )
18			%
19			% OUTPUT:
20			% dens = density [kg/m^3]
21			%
22			% AUTHOR: Martin Losch 2002-08-09 (mlosch@mit.edu)
23			%
24			% check value
25			% S = 35.5 PSU
26			% Theta = 3 degC
27			% P = 3000 dbar
28			% rho = 1041.83267 kg/m^3
29			%
30
31			% Jackett and McDougall, 1995, JAOT 12(4), pp. 381-388
32
33			% created by mlosch on 2002-08-09
34
35			%----------------------
36			% CHECK INPUT ARGUMENTS
37			%----------------------
38			if nargin ~=3
39			error('densjmd95.m: Must pass 3 parameters')
40			end
41			if length(p) ~= 1
42			error('pressure must be a scalar -- otherwise use densjmd95()')
43			end
44
45			% convert pressure to bar
46			p = 0.1 * p;
47
48			% coefficients nonlinear equation of state in pressure coordinates for
49			% 1. density of fresh water at p = 0
50			eosJMDCFw(1) = 999.842594;
51			eosJMDCFw(2) = 6.793952e-02;
52			eosJMDCFw(3) = - 9.095290e-03;
53			eosJMDCFw(4) = 1.001685e-04;
54			eosJMDCFw(5) = - 1.120083e-06;
55			eosJMDCFw(6) = 6.536332e-09;
56			% 2. density of sea water at p = 0
57			eosJMDCSw(1) = 8.244930e-01;
58			eosJMDCSw(2) = - 4.089900e-03;
59			eosJMDCSw(3) = 7.643800e-05;
60			eosJMDCSw(4) = - 8.246700e-07;
61			eosJMDCSw(5) = 5.387500e-09;
62			eosJMDCSw(6) = - 5.724660e-03;
63			eosJMDCSw(7) = 1.022700e-04;
64			eosJMDCSw(8) = - 1.654600e-06;
65			eosJMDCSw(9) = 4.831400e-04;
66
67			t2 = t.*t;
68			t3 = t2.*t;
69			t4 = t3.*t;
70
71			is = find(s(:) < 0 );
72			if ~isempty(is)
73			warning('found negative salinity values, reset them to NaN');
74			s(is) = NaN;
75			end
76			s3o2 = s.*sqrt(s);
77
78			% density of freshwater at the surface
79			rho = eosJMDCFw(1) + eosJMDCFw(2)t + eosJMDCFw(3)t2 ...
80			+ eosJMDCFw(4)t3 + eosJMDCFw(5)t4 + eosJMDCFw(6)t4.t;
81			% density of sea water at the surface
82			rho = rho ...
83			+ s.( eosJMDCSw(1) + eosJMDCSw(2)t + eosJMDCSw(3)*t2 ...
84			+ eosJMDCSw(4)t3 + eosJMDCSw(5)t4 ) ...
85			+ s3o2.( eosJMDCSw(6) + eosJMDCSw(7)t + eosJMDCSw(8)*t2 ) ...
86			+ eosJMDCSw(9)s.s;
87
88	edhill	1.2	rho = rho./(1 - p./bulkmodjmd95(s,t,p));
89	edhill	1.1
90			return
91
92			%=======================================================
93
94			function bulkmod = bulkmodjmd95(s,t,p)
95			%function bulkmod = bulkmodjmd95(s,t,p)
96
97			dummy = 0;
98			% coefficients in pressure coordinates for
99			% 3. secant bulk modulus K of fresh water at p = 0
100			eosJMDCKFw(1) = 1.965933e+04;
101			eosJMDCKFw(2) = 1.444304e+02;
102			eosJMDCKFw(3) = - 1.706103e+00;
103			eosJMDCKFw(4) = 9.648704e-03;
104			eosJMDCKFw(5) = - 4.190253e-05;
105			% 4. secant bulk modulus K of sea water at p = 0
106			eosJMDCKSw(1) = 5.284855e+01;
107			eosJMDCKSw(2) = - 3.101089e-01;
108			eosJMDCKSw(3) = 6.283263e-03;
109			eosJMDCKSw(4) = - 5.084188e-05;
110			eosJMDCKSw(5) = 3.886640e-01;
111			eosJMDCKSw(6) = 9.085835e-03;
112			eosJMDCKSw(7) = - 4.619924e-04;
113			% 5. secant bulk modulus K of sea water at p
114			eosJMDCKP( 1) = 3.186519e+00;
115			eosJMDCKP( 2) = 2.212276e-02;
116			eosJMDCKP( 3) = - 2.984642e-04;
117			eosJMDCKP( 4) = 1.956415e-06;
118			eosJMDCKP( 5) = 6.704388e-03;
119			eosJMDCKP( 6) = - 1.847318e-04;
120			eosJMDCKP( 7) = 2.059331e-07;
121			eosJMDCKP( 8) = 1.480266e-04;
122			eosJMDCKP( 9) = 2.102898e-04;
123			eosJMDCKP(10) = - 1.202016e-05;
124			eosJMDCKP(11) = 1.394680e-07;
125			eosJMDCKP(12) = - 2.040237e-06;
126			eosJMDCKP(13) = 6.128773e-08;
127			eosJMDCKP(14) = 6.207323e-10;
128
129			t2 = t.*t;
130			t3 = t2.*t;
131			t4 = t3.*t;
132
133			is = find(s(:) < 0 );
134			if ~isempty(is)
135			warning('found negative salinity values, reset them to NaN');
136			s(is) = NaN;
137			end
138			s3o2 = s.*sqrt(s);
139			%p = pressure(i,j,k,bi,bj)*SItoBar
140			p2 = p*p;
141			% secant bulk modulus of fresh water at the surface
142			bulkmod = eosJMDCKFw(1) + eosJMDCKFw(2)t + eosJMDCKFw(3)t2 ...
143			+ eosJMDCKFw(4)t3 + eosJMDCKFw(5)t4;
144			% secant bulk modulus of sea water at the surface
145			bulkmod = bulkmod ...
146			+ s.( eosJMDCKSw(1) + eosJMDCKSw(2)t ...
147			+ eosJMDCKSw(3)t2 + eosJMDCKSw(4)t3 ) ...
148			+ s3o2.( eosJMDCKSw(5) + eosJMDCKSw(6)t ...
149			+ eosJMDCKSw(7)*t2 );
150			% secant bulk modulus of sea water at pressure p
151			bulkmod = bulkmod ...
152			+ p ( eosJMDCKP(1) + eosJMDCKP(2)t ...
153			+ eosJMDCKP(3)t2 + eosJMDCKP(4)t3 ) ...
154			+ p s.( eosJMDCKP(5) + eosJMDCKP(6)t + eosJMDCKP(7)t2 ) ...
155			+ p s3o2eosJMDCKP(8) ...
156			+ p2 ( eosJMDCKP(9) + eosJMDCKP(10)t + eosJMDCKP(11)*t2 ) ...
157			+ p2 s.( eosJMDCKP(12) + eosJMDCKP(13)t + eosJMDCKP(14)t2 );
158
159			return
160