水资源研究  >> Vol. 3 No. 3 (June 2014)

城市防洪典型区域除涝方案分析研究
Research on Waterlogging Drainage Scenarios of Typical Urban Flood Control Regions

DOI: 10.12677/JWRR.2014.33029, PDF, HTML, 下载: 2,828  浏览: 7,119  国家自然科学基金支持

作者: 赵燕霞, 王运涛, 张弛:大连理工大学建设工程学部水利工程学院,大连;程木炜, 于子恢, 张弘:大连市排水处,大连

关键词: 除涝规划城市防洪雨水资源利用排水Waterlogging Planning Urban Flood Control Rainwater Resource Utilization Drainage

摘要: 降雨强度、地形及下垫面情况、排水管网分布是城市防洪的关键影响因素。而在同一城市区域内,不同特点下垫面导致不同特征的城市内涝。以大连市中心城区3种典型易涝点区域(平原、丘陵、入海口)为研究对象,进行现状条件下的城市内涝模拟,在模拟结果的基础上,分析不同改造成本下,各个除涝方案在典型区域内的除涝效果,进而确定典型易涝点的较优除涝方案,为实际城市防洪除涝工作提供参考依据。
Abstract: Rainfall intensity, topography, underlying surface conditions and distribution of drainage pipe network are the key influence factors in urban flood control. However, in the same urban region, the underlying surface with different characteristics could lead to the urban waterlogging with different characteristics. Taking three typical kinds of waterlogged point regions in central area of Dalian, i.e. plain, hill and estuary as research objects, tale quale urban waterlogging is simulated; waterlogged effect of different scenarios for waterlogging control in typical regions under different transformation costs based on the simulated results is analysed, and thus the preferable waterlogging control scenario of typical waterlogged point region is determined, providing a reference for real urban flood and waterlogging control.

文章引用: 赵燕霞, 程木炜, 王运涛, 于子恢, 张弘, 张弛. 城市防洪典型区域除涝方案分析研究[J]. 水资源研究, 2014, 3(3): 229-239. http://dx.doi.org/10.12677/JWRR.2014.33029

参考文献

[1] 谢映霞. 从城市内涝灾害频发看排水规划的发展趋势[J]. 城市规划, 2013, 2: 45-50. XIE Ying-xia. Development of drainage planning in view of frequent urban waterlogging disasters. City Planning Review, 2013, 2: 45-50. (in Chinese)
[2] 蔡剑波, 林宁, 杜小松, 冯云刚. 低洼绿地对降低城市径流深度、径流系数的效果分析[J]. 城市道桥与防洪, 2011, 6: 119-122, 318. CAI Jian-bo, LIN Ning, DU Xiao-song and FENG Yun-gang. Effect analysis of low-lying greenbelt to reduce urban runoff depth and runoff coefficient. Urban Roads Bridges & Flood Control, 2011, 6: 119-122, 318. (in Chinese)
[3] 晋存田, 赵树旗, 闫肖丽, 周玉文. 透水砖和下凹式绿地对城市雨洪的影响[J]. 中国给水排水, 2010, 1: 40-42, 46. JIN Cun-tian, ZHAO Shu-qi, YAN Xiao-li and ZHOU Yu-wen. Impacts of permeable brick and sunken lawn on urban stormwater. China Water & Wastewater, 2010, 1: 40-42, 46. (in Chinese)
[4] 吴海岚. 浅谈沧州市雨洪资源利用与研究[J]. 水资源研究, 2007, 28(1): 14-15. WU Hai-lan. Research of utilization of Cangzhou rainwater resource. Journal of Water Resources Research, 2007, 28(1): 14-15. (in Chinese)
[5] 李彦伟, 尤学一, 季民, 王秀朵, 赵乐军, 潘留明. 基于SWMM模型的雨水管网优化[J]. 中国给水排水, 2010, 23: 40-43. LI Yan-wei, YOU Xue-yi, JI Min, WANG Xiu-duo, ZHAO Le-jun and PAN Liu-ming. Optimization of rainwater drainage system based on SWMM model. China Water & Wastewater, 2010, 23: 40-43. (in Chinese)
[6] 陈小华. 水景社区的雨水收集与综合利用设计[J]. 水资源保护, 2010, 5: 78-81. CHEN Xiao-hua. Case study on collection and reuse of rainwater in waterscape community of Shanghai. Water Resources Protection, 2010, 5: 78-81. (in Chinese)
[7] 姚枝良. 石家庄正定新区园博园雨水泵站设计研究[J]. 环境科学与管理, 2013, 11: 84-88. YAO Zhi-liang. Design of garden expo storm water pumping station in Shijiazhuang Zhengding new district. Envi-ronmental Science and Management, 2013, 11: 84-88. (in Chinese)
[8] 刘波. 纽约、伦敦和东京等世界城市防洪排涝经验与启示[J]. 城市观察, 2013, 2: 145-150. LIU Bo. Flood control experience from New York, London and Tokyo and its reference for Chinese cities. Urban Insight, 2013, 2: 145-150. (in Chinese)
[9] 郑小瑶, 徐盛帅, 蔡竹聪, 徐建坤, 徐建青. 浅议国内外大型城市地下排水设计与排涝对策[J]. 浙江建筑, 2012, 11: 59-63. ZHENG Xiao-yao, XU Sheng-shuai, CAI Zhu-cong, XU Jian-kun and XU Jian-qing. A preliminary discussion on the design of urban under drainage systems and the countermeasure of flood drainage at home and abroad. Zhejiang Construction, 2012, 11: 59-63. (in Chinese)
[10] 郑兴, 周孝德, 计冰昕. 德国的雨水管理及其技术措施[J]. 中国给水排水, 2005, 2: 104-106. ZHENG Xing, ZHOU Xiao-de and JI Bing-xin. Rainwater management and technical measures in Germany. China Water & Wastewater, 2005, 2: 104-106. (in Chinese)
[11] 程江, 徐启新, 杨凯, 刘兰岚, 范群杰. 国外城市雨水资源利用管理体系的比较及启示[J]. 中国给水排水, 2007, 12: 68-72. CHENG Jiang, XU Qi-xin, YANG Kai, LIU Lan-lan and FAN Qun-jie. Comparison of foreign urban rainwater re-source utilization management systems and some inspirations. China Water & Wastewater, 2007, 12: 68-72. (in Chinese)
[12] 鲁航线, 张开军, 陈微静. 城市防洪、排涝及排水三种设计标准的关系初探[J]. 城市道桥与防洪, 2007, 11: 64-66, 16. LU Hang-xian, ZHANG Kai-jun and CHEN Wei-jing. Elementary probing into relation of three design standards of urban flood control, flooded fields and drainage. Urban Roads Bridges & Flood Control, 2007, 11: 64-66, 16. (in Chinese)
[13] 李美娟. 城市雨水资源利用效益评价研究[D]. 大连理工大学, 2010. LI Mei-juan. The benefit assessment of urban rainwater utilization. Dalian University of Technology, 2010. (in Chinese)
[14] 陈玉恒. 城市雨洪利用的构想[J]. 水利发展研究, 2002, 4: 32-33. CHEN Yu-heng. The idea of urban rain flood use. Water Resources Development Research, 2002, 4: 32-33. (in Chinese)