摘要
深圳河是香港特别行政区和深圳经济特区之间的界河。为解决深圳河的防洪排涝问题,深圳市治理深圳河办公室和香港特别行政区政府渠务署致力于找出可持续发展的方法,以拓宽河道,治理水浸问题。本项目综合运用了最先进的一维、二维数学模型以及实体模型模拟泄洪设计,包括进水口溢流堰系统、出水口水闸和一个80 000 m3的开放式滞洪区。滞洪区的设计运用可持续发展理念,巧妙的湿地设计能够预防水土流失,支持生态发展,优化了泄洪方案。研究成果可为河道治理工程提供参考。
Shenzhen River is the boundary river between Hong Kong Special Administrative Region and Shenzhen Special Economic Zone. In order to solve the problems from flood control and drainage of Shenzhen River,both Shenzhenhe River Regulation Office of Shenzhen and the Drainage Services Department of Hong Kong Special Administrative Region devote theirselves to find out a way of sustainable development,so as to widen the river channel and control the waterlogging therein. The most advanced1- D and 2- D mathematic models as well as the design for flood discharge simulated by entity model are comprehensively applied,which includes inlet overflow weir system,outlet water gate and an open flood detention area of 80 000 m3. The flood detention area is designed with the sustainable development concept and an ingenious design of wetland,thus can prevent water and soil loss and support eco-development,and then optimizes the flood discharge scheme. This study achievement can provide references for the river regulation project concerned.
出处
《水利水电技术》
CSCD
北大核心
2015年第2期5-7,13,共4页
Water Resources and Hydropower Engineering
关键词
深圳河
滞洪区
水力模型
可持续发展
Shenzhen River
flood detention area
hydraulic model
sustainable development
