Impact of Levee-Breach Width on the Channel–Levee–Floodplain: A Case Study in the Huaihe River Basin, China

Author:

Hu Yong12,Qin Tianling1ORCID,Dong Guoqiang2ORCID,Zhang Qibing2,Chen Xiaofeng2,Wang Minjie2,Ruan Hongwei2,Wang Lei2

Affiliation:

1. China Institute of Water Resources and Hydropower Research, Beijing 100038, China

2. Key Laboratory of Water Conservancy and Water Resources of Anhui Province, Water Resources Research Institute of Anhui Province and Huaihe River Water Resources Commission, Hefei 230088, China

Abstract

Breach geometry is one essential feature for flood modelling in the channel–levee–floodplain system. It is hard to accurately predict the breach geometry because of its high uncertainty. However, due to the fact that breach geometry direct impacts the flow through the breach, the water surface profile in the channel and the flood hazard factors within the floodplain are changed with the breach geometry. To explore the impacts of breach width (one feature of the breach geometry) on the channel–levee–floodplain system, we took the Cinan Feiyou Flood Control Protection Area (CNFY-FCPA) in the middle reach of the Huaihe River Basin as the study area. We constructed a coupled 1D-2D hydrodynamic model to simulate the flooding with a series of breach-width scenarios. According to the simulation results of the models, we quantitatively analyzed the impacts of breach width on the inflow through the breach, fluvial flood process, and flood hazard factors in the CNFY-FCPA. The results indicate that (i) the relationship between the peak discharge (and inflow volume) and breach width was approximate to an S-shaped curve, while the peak discharge, inflow volume, and duration per unit width decreased with the wider breach; (ii) the breach caused a decrease in the water surface profile along the entire river sections; and (iii) while the breach width exceeded a certain width, the inundation area was nearly stable without changing with wider breach. The certain width was not the same in different rivers of 300 m in the Yinghe River and of 500 m in the Huaihe River. The research results can provide a scientific basis for flood-control and disaster-reduction decision making.

Funder

Anhui Provincial Natural Science Foundation

National Natural Science Foundation of China

Independent Research Project of Water Resources Research Institute of Anhui Province and Huaihe River Water Resources Commission

Science and Technology Projects of Anhui Provincial Group Limited for Yangtze-To-Huaihe Water Diversion

Publisher

MDPI AG

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