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Effects of wave-current interaction on storm surge in the Taiwan Strait:: Insights from Typhoon Morakot

Effects of wave-current interaction on storm surge in the Taiwan Strait:: Insights from Typhoon Morakot
Effects of wave-current interaction on storm surge in the Taiwan Strait:: Insights from Typhoon Morakot
The effects of wave-current interaction on storm surge are investigated by a two-dimensional wave-current coupling model through simulations of Typhoon Morakot in the Taiwan Strait. The results show that wind wave and slope of sea floor govern wave setup modulations within the nearshore surf zone. Wave setup during Morakot can contribute up to 24% of the total storm surge with a maximum value of 0.28 m. The large wave setup commonly coincides with enhanced radiation stress gradient, which is itself associated with transfer of wave momentum flux. Water levels are to leading order in modulating significant wave height inside the estuary. High water levels due to tidal change and storm surge stabilize the wind wave and decay wave breaking. Outside of the estuary, waves are mainly affected by the current-induced modification of wind energy input to the wave generation. By comparing the observed significant wave height and water level with the results from uncoupled and coupled simulations, the latter shows a better agreement with the observations. It suggests that wave-current interaction plays an important role in determining the extreme storm surge and wave height in the study area and should not be neglected in a typhoon forecast.
0278-4343
47-57
Yu, Xiaolong
3ffa551d-f57e-4f49-a130-475e43039c75
Pan, Weiran
ced02cef-d370-4a28-8903-527c3bc20819
Zheng, Xiangjing
1de292d5-ef91-4bc7-8cc8-e804cb332cbf
Zhou, Shenjie
321d4fb2-f26c-4066-be60-9f45fec87d4b
Tao, Xiaoqin
f0a6725d-df8c-44ec-97c3-89c5ff79dd66
Yu, Xiaolong
3ffa551d-f57e-4f49-a130-475e43039c75
Pan, Weiran
ced02cef-d370-4a28-8903-527c3bc20819
Zheng, Xiangjing
1de292d5-ef91-4bc7-8cc8-e804cb332cbf
Zhou, Shenjie
321d4fb2-f26c-4066-be60-9f45fec87d4b
Tao, Xiaoqin
f0a6725d-df8c-44ec-97c3-89c5ff79dd66

Yu, Xiaolong, Pan, Weiran, Zheng, Xiangjing, Zhou, Shenjie and Tao, Xiaoqin (2017) Effects of wave-current interaction on storm surge in the Taiwan Strait:: Insights from Typhoon Morakot. Continental Shelf Research, 146, 47-57. (doi:10.1016/j.csr.2017.08.009).

Record type: Article

Abstract

The effects of wave-current interaction on storm surge are investigated by a two-dimensional wave-current coupling model through simulations of Typhoon Morakot in the Taiwan Strait. The results show that wind wave and slope of sea floor govern wave setup modulations within the nearshore surf zone. Wave setup during Morakot can contribute up to 24% of the total storm surge with a maximum value of 0.28 m. The large wave setup commonly coincides with enhanced radiation stress gradient, which is itself associated with transfer of wave momentum flux. Water levels are to leading order in modulating significant wave height inside the estuary. High water levels due to tidal change and storm surge stabilize the wind wave and decay wave breaking. Outside of the estuary, waves are mainly affected by the current-induced modification of wind energy input to the wave generation. By comparing the observed significant wave height and water level with the results from uncoupled and coupled simulations, the latter shows a better agreement with the observations. It suggests that wave-current interaction plays an important role in determining the extreme storm surge and wave height in the study area and should not be neglected in a typhoon forecast.

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Accepted/In Press date: 16 August 2017
Published date: 17 August 2017
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Identifiers

Local EPrints ID: 414295
URI: http://eprints.soton.ac.uk/id/eprint/414295
DOI: doi:10.1016/j.csr.2017.08.009
ISSN: 0278-4343
PURE UUID: 3a192a31-192b-48ce-abb8-49644ccefb54

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Date deposited: 26 Sep 2017 16:30
Last modified: 15 Mar 2024 16:09

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Contributors

Author: Xiaolong Yu
Author: Weiran Pan
Author: Xiangjing Zheng
Author: Shenjie Zhou
Author: Xiaoqin Tao

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