Author(s): Qihang Sun; Junqiang Xia; Shanshan Deng; Yunping Yang; Yanhua Yang
Linked Author(s): Junqiang Xia
Keywords: Bank erosion; Three-dimensional modelling; Arc-shaped; Optimization strategies; Lower Yangtze River
Abstract: Bank erosion in the densely populated Lower Yangtze River (LYR) poses a significant threat to riparian residents and industry. Different from general bank erosion types in previous researches, it typically has a arc shape in the LYR, develops rapidly within a few hours and results in an obvious erosion pond. However, modeling such erosion is challenging due to the continuously changing flow structure within the pond as the bank boundary retreats. Therefore, a three-dimensional model is proposed in the current research, coupling a hydro-and sediment dynamic module with a bank erosion module. The results show that: ①The proposed model successfully reproduced the hydraulic conditions and the arc-shaped bank erosion process in the study reach. The calculated bank erosion area in the tidal reach is around 98,370 m2, close to the measured value of 84,060 m2; ②The proposed optimization strategies include raising the gate elevation by 2.5 meters and shifting the location of the shoulder guarding structures towards the main stream by approximately 35 to 63 m. Compared to the pre-optimization scenario, the optimized plan reduces the eroded bank area by 1493m2, a reduction of 17.4%, and decreases the maximum flow velocity by an average of approximately 14.5%. Additionally, the area of intense turbulence within the ponds decreases by approximately 12.4%.
Year: 2024