New parameterization of air-sea exchange coefficients and its impact on intensity prediction under major tropical cyclones SCIE SCOPUS

Cited 0 time in WEB OF SCIENCE Cited 0 time in Scopus
Title
New parameterization of air-sea exchange coefficients and its impact on intensity prediction under major tropical cyclones
Author(s)
Lee, Woojeong; Kim, Sung Hun; Moon, Il-Ju; Bell, Michael M.; Ginis, Isaac
KIOST Author(s)
Kim, Sung Hun(김성훈)
Alternative Author(s)
김성훈
Publication Year
2022-11
Abstract
Understanding and quantifying air-sea exchanges of enthalpy and momentum fluxes are crucial for the advanced prediction of tropical cyclone (TC) intensity. Here, we present a new parameterization of air-sea fluxes at extreme wind speeds from 40 m s−1 to 75 m s−1, which covers the range of major TCs. Our approach assumes that the TC can reach its maximum potential intensity (MPI) if there are no influences of external forces such as vertical wind shear or other environmental constraints.This method can estimate the ratio of the enthalpy and momentum exchange coefficient (Ck/Cd) under the most intense TCs without direct flux measurements. The estimation showed that Ck/Cd increases with wind speed at extreme winds above 40 m s−1. Two types of surface layer schemes of the Hurricane Weather and Research Forecast (HWRF) were designed based on the wind speed dependency of the Ck/Cd found at high winds: (i) an increase of Ck/Cd based on decreasing Cd (Cd_DC) and (ii) an increase of Ck/Cd based on increasing Ck (Ck_IC). The modified surface layer schemes were compared to the original HWRF scheme (using nearly fixed Cd and Ck at extreme winds; CTRL) through idealized experiments and real-case predictions. The idealized experiments showed that Cd_DC reduced frictional dissipation in the air-sea interface as well as significantly reduced sea surface cooling, making the TC stronger than other schemes. As a result, Cd_DC reduced the mean absolute error and negative bias by 15.0% (21.0%) and 19.1% (32.0%), respectively, for all lead times of Hurricane Irma in 2017 (Typhoon Mangkhut in 2018) compared to CTRL. This result suggests that new parameterization of Ck/Cd with decreasing Cd at high winds can help improve TC intensity prediction, which currently suffers from underestimating the intensity of the strongest TCs.
ISSN
2296-7745
URI
https://sciwatch.kiost.ac.kr/handle/2020.kiost/43462
DOI
10.3389/fmars.2022.1046511
Bibliographic Citation
Frontiers in Marine Science, v.9, 2022
Publisher
Frontiers Media S.A.
Keywords
air-sea exchange coefficients; lifetime maximum intensity; maximum potential intensity; numerical modeling; tropical cyclone intensity predictions
Type
Article
Language
English
Document Type
Article
Publisher
Frontiers Media S.A.
Files in This Item:
There are no files associated with this item.

qrcode

Items in ScienceWatch@KIOST are protected by copyright, with all rights reserved, unless otherwise indicated.

Browse