SUBROUTINE nightingale(u, v, u_10m, v_10m, paprs, pplay, & cdragh, cdragm, t, q, ftsol, tsol, & pctsrf, lmt_dmsconc, lmt_dms) ! USE dimphy USE indice_sol_mod IMPLICIT NONE ! INCLUDE "dimensions.h" INCLUDE "YOMCST.h" ! REAL :: u(klon, klev), v(klon, klev) REAL :: u_10m(klon), v_10m(klon) REAL :: ftsol(klon, nbsrf) REAL :: tsol(klon) REAL :: paprs(klon, klev + 1), pplay(klon, klev) REAL :: t(klon, klev) REAL :: q(klon, klev) REAL :: cdragh(klon), cdragm(klon) REAL :: pctsrf(klon, nbsrf) REAL :: lmt_dmsconc(klon) ! concentration oceanique DMS REAL :: lmt_dms(klon) ! flux de DMS ! REAL :: ustar(klon), obklen(klon) REAL :: u10(klon), u10n(klon) REAL :: tvelocity, schmidt_corr REAL :: t1, t2, t3, t4, viscosity_kin, diffusivity, schmidt INTEGER :: i ! CALL bl_for_dms(u, v, paprs, pplay, cdragh, cdragm, & t, q, tsol, ustar, obklen) ! DO i = 1, klon u10(i) = SQRT(u_10m(i)**2 + v_10m(i)**2) ENDDO ! CALL neutral(u10, ustar, obklen, u10n) ! DO i = 1, klon ! ! tvelocity - transfer velocity, also known as kw (cm/s) ! schmidt_corr - Schmidt number correction factor (dimensionless) ! Reference: Nightingale, P.D., G. Malin, C. S. Law, J. J. Watson, P.S. Liss ! M. I. Liddicoat, J. Boutin, R.C. Upstill-Goddard. 'In situ evaluation ! of air-sea gas exchange parameterizations using conservative and ! volatile tracers.' Glob. Biogeochem. Cycles, 14:373-387, 2000. ! compute transfer velocity using u10neutral ! tvelocity = 0.222 * u10n(i) * u10n(i) + 0.333 * u10n(i) ! ! above expression gives tvelocity in cm/hr. convert to cm/s. 1hr =3600 sec tvelocity = tvelocity / 3600. ! compute the correction factor, which for Nightingale parameterization is ! based on how different the schmidt number is from 600. ! correction factor based on temperature in Kelvin. good ! only for t<=30 deg C. for temperatures above that, set correction factor ! equal to value at 30 deg C. IF (ftsol(i, is_oce) <= 303.15) THEN t1 = ftsol(i, is_oce) ELSE t1 = 303.15 ENDIF t2 = t1 * t1 t3 = t2 * t1 t4 = t3 * t1 viscosity_kin = 3.0363e-9 * t4 - 3.655198e-6 * t3 + 1.65333e-3 * t2 & - 3.332083e-1 * t1 + 25.26819 diffusivity = 0.01922 * exp(-2177.1 / t1) schmidt = viscosity_kin / diffusivity schmidt_corr = (schmidt / 600.)**(-.5) ! lmt_dms(i) = tvelocity * pctsrf(i, is_oce) & * lmt_dmsconc(i) / 1.0e12 * schmidt_corr * RNAVO ! IF (lmt_dmsconc(i)<=1.e-20) lmt_dms(i) = 0.0 ! ENDDO ! END SUBROUTINE nightingale