function dqdsst=get_dqdsst(sst,sat,rho_atm,U,qsea) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Compute the kinematic surface net heat flux sensitivity to the % the sea surface temperature: dQdSST. % Q_model ~ Q + dQdSST * (T_model - SST) % dQdSST = - 4 * eps * stef * T^3 - rho_atm * Cp * CH * U % - rho_atm * CE * L * U * 2353 * ln (10) * q_s / T^2 % % B. Barnier, L. Siefridt, P. Marchesiello, % Thermal forcing for a global ocean circulation model using % a three-year climatology of ECMWF analyses, % J. Marine Sys., 2005, 6, 363-380 % % Input parameters: % % sst : sea surface temperature (Celsius) % sat : sea surface atmospheric temperature (Celsius) % rho_atm : atmospheric density (kilogram meter-3) % U : wind speed (meter s-1) % qsea : sea level specific humidity % % % Ouput: % % dqdsst : kinematic surface net heat flux sensitivity to the % the sea surface temperature (Watts meter-2 Celsius-1) % % Further Information: % http://www.croco-ocean.org % % This file is part of CROCOTOOLS % % CROCOTOOLS 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. % % CROCOTOOLS 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., 59 Temple Place, Suite 330, Boston, % MA 02111-1307 USA % % Copyright (c) 2002-2006 by Pierrick Penven % e-mail:Pierrick.Penven@ird.fr % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % % Specific heat of atmosphere. % Cp = 1004.8; % % Sensible heat transfert coefficient (stable condition) % Ch = 0.66e-3; % % Latent heat transfert coefficient (stable condition) % Ce = 1.15e-3; % % Emissivity coefficient % eps = 0.98; % % Stefan constant % stef = 5.6697e-8; % % SST (Kelvin) % SST = sst + 273.15; % % Latent heat of vaporisation (J.kg-1) % L = 2.5008e6 - 2.3e3 * sat; % % Infrared contribution % q1 = -4.d0 .* stef .* (SST.^3); % % Sensible heat contribution % q2 = -rho_atm .* Cp .* Ch .* U; % % Latent heat contribution % dqsdt = 2353.d0 .* log(10.d0) .* qsea ./ (SST.^2); q3 = -rho_atm .* Ce .* L .* U .* dqsdt; % % dQdSST % dqdsst = q1 + q2 + q3 ;