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天文潮在珠江口风暴潮灾害评估中的影响研究OA

Impacts of astronomical tides on storm surge risk assessment in Pearl River estuary

中文摘要英文摘要

天文潮与风暴潮之间的非线性作用会改变沿海极端的风暴潮位过程,从而给风暴潮灾害风险的准确评估带来不确定性.本文以珠江口为研究区域,基于非结构网格模式SCHISM,构建了耦合天文潮与风暴潮相互作用的数值模型.通过对2018年台风"山竹"进行不同天文潮相位的组合模拟,揭示了遭遇不同天文潮潮时对风暴增水的调节作用.在内湾与口门邻近区域,低潮情景普遍导致更大的增水,变化幅度在0.2~0.3 m左右.进一步利用20年模拟结果,结合Pearson-Ⅲ分布估算了不同潮位情景下风暴潮极值的重现期,结果表明在高重现期差异尤为明显,高潮情景可能导致增水低估.研究表明,天文潮相位对风暴潮风险评估具有重要影响,应在海岸防灾减灾的工程设计中予以考虑.

Nonlinear interaction between astronomical tides and storm surges can alter the process of a coastal storm surge and its extremes,inducing uncertainty in assessment of its hazard risks.Focusing on the Pearl River estuary,this study develops a numerical model that couples astronomical tides,storm surges,and their interaction based on the unstructured-grid model SCHISM.We reveal the modulating effect of tidal timing on storm surge amplification through ensemble simulations of Typhoon Mangkhut(2018)under different tidal timing scenarios.In the inner bay and near the estuary mouth,low-tide scenarios generally generate higher surges in the range of 0.2-0.3 m roughly.And,we also estimate the return periods of storm surge extremes under different tidal scenarios,based on the 20-year long simulations of separate extreme typhoon events and their Pearson-III distribution fitting.The results indicate the differences become particularly significant for high return periods,where high-tide scenarios may lead to an underestimation of surge heights.This study demonstrates the crucial role of tidal timing in storm surge risk assessment,a key factor of engineering design of coastal disaster prevention and mitigation.

王思超;杨洁

河海大学 港口海岸与近海工程学院,南京 210024河海大学 港口海岸与近海工程学院,南京 210024||河海大学 海岸灾害及防护教育部重点实验室,南京 210024

建筑与水利

珠江口风暴潮天文潮数值模拟极值统计重现期风险评估

Pearl River estuarystorm surgeastronomical tidesnumerical simulationextreme value statisticsreturn periodrisk assessment

《水力发电学报》 2026 (3)

35-45,11

国家自然科学基金(52271273)

10.11660/slfdxb.20260304

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