Tropical Cyclone Modeling With the Inclusion of Wave‐Coupled Processes: Sea Spray and Wave Turbulence

Xingkun Xu; Joey J. Voermans; Wenqing Zhang; Biao Zhao; Fangli Qiao; Qingxiang Liu; Il‐Ju Moon; Ivica Janekovic; Takuji Waseda; Alexander V. Babanin

doi:10.1029/2023GL106536

Geophysical Research Letters (Dec 2023)

Tropical Cyclone Modeling With the Inclusion of Wave‐Coupled Processes: Sea Spray and Wave Turbulence

Xingkun Xu,
Joey J. Voermans,
Wenqing Zhang,
Biao Zhao,
Fangli Qiao,
Qingxiang Liu,
Il‐Ju Moon,
Ivica Janekovic,
Takuji Waseda,
Alexander V. Babanin

Affiliations

Xingkun Xu: Department of Infrastructure Engineering University of Melbourne Melbourne VIC Australia
Joey J. Voermans: Department of Infrastructure Engineering University of Melbourne Melbourne VIC Australia
Wenqing Zhang: College of Oceanic and Atmospheric Sciences Ocean University of China Qingdao China
Biao Zhao: First Institute of Oceanography Ministry of Natural Resources Qingdao China
Fangli Qiao: First Institute of Oceanography Ministry of Natural Resources Qingdao China
Qingxiang Liu: Department of Infrastructure Engineering University of Melbourne Melbourne VIC Australia
Il‐Ju Moon: Typhoon Research Center Jeju National University Jeju Korea
Ivica Janekovic: Oceans Graduate School the UWA Oceans Institute The University of Western Australia Perth WA Australia
Takuji Waseda: Department of Ocean Technology, Policy, and Environment Graduate School of Frontier Sciences The University of Tokyo Kashiwa Japan
Alexander V. Babanin: Department of Infrastructure Engineering University of Melbourne Melbourne VIC Australia

DOI: https://doi.org/10.1029/2023GL106536
Journal volume & issue: Vol. 50, no. 24
pp. n/a – n/a

Abstract

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Abstract Waves critically modulate the air‐sea fluxes, and upper‐ocean thermodynamics in a Tropical Cyclone (TC) system. This study improves the modeling of TC intensification by incorporating non‐breaking wave‐induced turbulence and sea spray from breaking waves into an atmosphere‐ocean‐wave coupled model. Notably, wind forecast error decreased by around 10% prior to TCs' peak intensity. The positive feedback of sea spray along with compensatory negative feedback from non‐breaking waves, overall enhanced TCs' intensity. These breaking and non‐breaking wave‐coupled processes consistently cool sea surface temperature, resulting in improvement of the modeled SST. Observed improvements in full‐year TC cases ranging from Categories I to IV in this study suggest that an accurate characterization of ocean wave‐coupled processes is crucial for improving TCs' intensity forecasts and advancing our understanding of severe weather events in both, the atmosphere and ocean.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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