Title :
A New Algorithm to Predict the Air-Sea Spray Fluxes
Author :
Jian, Shi ; Zhong, Zhong ; Yan, Li ; Shanshan, Ge
Author_Institution :
Inst. of Meteorol., PLA Univ. of Sci. & Technol., Nanjing, China
Abstract :
New sea spray flux formulae, including the new sea spray generation function and new drag coefficient, are proposed, which can express the influence of wave state remarkably. With HEXOS data set, sea spray feedback effect is parameterized by two coefficients, and both of them are larger than 1, which means the feedback effect can enlarge the sea spray heat fluxes considerably. In the new sea spray flux formulae, windsea Reynolds number can be expressed as the fundamental parameter which controls the intensity of air-sea interaction, especially, can reconcile the different dynamical conditions with various wind forcing and wave states occurring in the air-sea interface.
Keywords :
drag; ocean waves; oceanographic regions; wind; HEXOS data set; Reynolds number; air-sea interaction; air-sea spray fluxes; drag coefficient; heat flux; wave state; wind forcing; Feedback; Humidity; Knowledge engineering; Ocean temperature; Prediction algorithms; Sea surface; Software engineering; Spraying; Surface waves; Wind speed; HEXOS; Sea Spray Flux; Wave state;
Conference_Titel :
Knowledge Engineering and Software Engineering, 2009. KESE '09. Pacific-Asia Conference on
Conference_Location :
Shenzhen
Print_ISBN :
978-0-7695-3916-4
DOI :
10.1109/KESE.2009.37
