Abstract
AbstractThe drag coefficient is important in meteorological studies of the boundary layer because it describes the air–sea momentum flux. Eight drag coefficient schemes were assessed. These parametrizations were compared taking into account data from in situ and laboratory observations. The drag coefficients determined using three schemes were consistent with the level-off phenomenon, supported by the results of laboratory studies. The drag coefficient determined using one scheme decreased at wind speeds higher than approximately 30 m s−1, in agreement with indirect measurements under typhoon conditions. In contrast, the drag coefficients determined using the other four schemes increased with wind speed, even under high wind regimes. Sensitivity tests were performed using simulations of two super typhoons in the Weather Research and Forecasting model. While the typhoon tracks were negligibly sensitive to the parametrization used, the typhoon intensities (the maximum 10-m wind speed and the minimum sea lev...
Highlights
A bulk formula is often used to represent the exchange of momentum flux between the atmosphere and the ocean surface
It is difficult to observe the behaviour of Cd in strong winds, so some parametrizations of Cd (e.g. Charnock 1955; Davis et al 2008; Edson et al 2013) have been extrapolated from field measurements in weak winds, which all reveal that Cd rapidly increases as the surface wind speed increases
By combining the wave height and wave steepness, the formula proposed by Taylor and Yelland (2001) reduces the rate at which the Cd increases with wind speed
Summary
A bulk formula is often used to represent the exchange of momentum flux ( known as wind stress) between the atmosphere and the ocean surface. Green and Zhang (2013) conducted five physical sensitivity experiments using three different momentum flux parametrizations and two different moist enthalpy flux parametrizations, using version 3.4.1 of the Weather Research and Forecasting (WRF) model. They found that the surface fluxes significantly affected a simulation of Hurricane Katrina (2005) and that in particular Cd affected the pressure–wind relationship and the maximum surface wind radius of the hurricane.
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