Impact of river training on the hydraulics of Shenzhen river

Shenzhen River is a tidal river on the border between Hong Kong and Shenzhen It flows southwest towards Deep Bay in the Pearl River Estuary in south China In the past, Shenzhen River was narrow, meandering and only capable of conveying floods of return period 2-5 years To alleviate the flooding hazard, Hong Kong and Shenzhen governments have earned out the Shenzhen River Regulation Project jointly since 1995 The river downstream has been trained to cater for flooding of 50-year return period However, unexpectedly, the trained Shenzhen River has been seriously silted by 3 m of sediment 5 years after the completion of river training This diminishes the effectiveness of river training on enhancing flood discharge capacity We present a study on the impact of river training on Shenzhen River hydraulics by an Integrated three-dimensional numerical hydrodynamic model The model is verified against field data and shows good agreement with the observed hydrodynamics, wetting and drying of inner Deep Bay tidal flats are successfully simulated The model simulations show that river training has drastically altered the hydraulics of Shenzhen River Tidal propagation in the river has changed from a damped tidal oscillation to a more standing wave character with less amplitude damping Tidal current is reduced by about 50% Vertical salinity stratification and gravitational circulations are formed within the trained river in the dry season The bottom upstream residual current in the two-layered residual circulation strongly suggests the input of sediment from Deep Bay and sediment trapping in the river (C) 2010 International Association of Hydro-environment Engineering and Research, Asia Pacific Division Published by Elsevier B V All rights reserved