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ARTÍCULO
TITULO

Impacts of the Wave-Dependent Sea Spray Parameterizations on Air?Sea?Wave Coupled Modeling under an Idealized Tropical Cyclone

Xingkun Xu    
Joey J. Voermans    
Qingxiang Liu    
Il-Ju Moon    
Changlong Guan and Alexander V. Babanin    

Resumen

While sea spray can significantly impact air?sea heat fluxes, the effect of spray produced by the interaction of wind and waves is not explicitly addressed in current operational numerical models. In the present work, the thermal effects of the sea spray were investigated for an idealized tropical cyclone (TC) through the implementation of different sea spray models into a coupled air?sea?wave numerical system. Wave-Reynolds-dependent and wave-steepness-dependent sea spray models were applied to test the sensitivity of local wind, wave, and ocean fields of this TC system. Results show that while the sensible heat fluxes decreased by up to 231 W m-2 (364%) and 159 W m-2 (251%), the latent heat fluxes increased by up to 359 W m-2 (89%) and 263 W m-2 (76%) in the simulation period, respectively. This results in an increase of the total heat fluxes by up to 135 W m-2 (32%) and 123 W m-2 (30%), respectively. Based on different sea spray models, sea spray decreases the minimum sea level pressure by up to 7 hPa (0.7%) and 8 hPa (0.8%), the maximum wind speed increases by up to 6.1 m s-1 (20%) and 5.7 m s-1 (19%), the maximum significant wave height increases by up to 1.1 m (17%) and 1.6 m (25%), and the minimum sea surface temperature decreases by up to 0.2 °C (0.8%) and 0.15 °C (0.6%), respectively. As the spray has such significant impacts on atmospheric and oceanic environments, it needs to be included in TC forecasting models.