A Numerical Study on Storm Surge Dynamics Caused by Tropical Depression 29W in the Pahang Region

Mohd Anuar, Norzana; Teh, Hee-Min; Ma, Zhe

doi:10.3390/jmse11122223

JMSE

2023

DOI: 10.3390/jmse11122223

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A Numerical Study on Storm Surge Dynamics Caused by Tropical Depression 29W in the Pahang Region

Norzana Mohd Anuar,

Hee-Min Teh,

Zhe Ma

Abstract: Amid mounting concerns about climate change’s impact on coastal areas, this study investigates storm surge dynamics induced by Tropical Depression 29W (TD 29W) using the MIKE 21 model. Comprehending the complex mechanisms behind storm surges is crucial considering gaps in understanding their combined influences, including tide–surge interactions, varying typhoon parameters, and changing storm tracks. The impacts of climate change, including accelerating sea level rise and its correlation with storm surge magni… Show more

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2024

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Cited by 1 publication

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Tide–surge interaction observed at Singapore and the east coast of Peninsular Malaysia using a semi-empirical model

Koh,

Grandey,

Samanta

et al. 2024

Ocean Sci.

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Abstract. Tide–surge interaction plays a substantial role in determining the characteristics of coastal water levels over shallow regions. We study the tide–surge interaction observed at seven tide gauges along Singapore and the east coast of Peninsular Malaysia, focusing on the timing of extreme non-tidal residuals relative to tidal high water. We propose a modified statistical framework using a no-tide–surge interaction (no-TSI) null distribution that accounts for asymmetry and variation in the duration of tidal cycles. We find that our modified framework can mitigate false-positive signals of tide–surge interaction in this region. We find evidence of tide–surge interaction at all seven locations, with characteristics varying smoothly along the coastline: the highest non-tidal residuals are found to occur most frequently before tidal high water in the south, both before and after tidal high water in the central region, and after tidal high water in the north. We also propose a semi-empirical model to investigate the effects of tidal-phase alteration, which is one mechanism of tide–surge interaction. Results of our semi-empirical model reveal that tidal-phase alteration caused by storm surges is substantial enough to generate significant change in the timing of extreme non-tidal residuals. To mitigate the effect of tidal-phase alteration on return level estimation, skew surge can be used. We conclude that (1) tide–surge interaction influences coastal water levels in this region, (2) our semi-empirical model provides insight into the mechanism of tidal-phase alteration, and (3) our no-TSI distribution should be used for similar studies globally.

show abstract

Tide–surge interaction observed at Singapore and the east coast of Peninsular Malaysia using a semi-empirical model

Koh,

Grandey,

Samanta

et al. 2024

Ocean Sci.

View full text Add to dashboard Cite

show abstract

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A Numerical Study on Storm Surge Dynamics Caused by Tropical Depression 29W in the Pahang Region

Cited by 1 publication

References 62 publications

Tide–surge interaction observed at Singapore and the east coast of Peninsular Malaysia using a semi-empirical model

Tide–surge interaction observed at Singapore and the east coast of Peninsular Malaysia using a semi-empirical model

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