Source Journal of CSCD
Source Journal for Chinese Scientific and Technical Papers
Core Journal of RCCSE
Included in JST China
Volume 41 Issue 12
Dec.  2023
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Article Contents
WANG Hongwu, YAN Ming, ZHAI Yuejiao, DAI Xiaohu. RESILIENCE EVALUATION OF URBAN RAINWATER DRAINAGE SYSTEM IN PLAIN RIVER NETWORK AREA[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(12): 61-69,255. doi: 10.13205/j.hjgc.202312007
Citation: WANG Hongwu, YAN Ming, ZHAI Yuejiao, DAI Xiaohu. RESILIENCE EVALUATION OF URBAN RAINWATER DRAINAGE SYSTEM IN PLAIN RIVER NETWORK AREA[J]. ENVIRONMENTAL ENGINEERING , 2023, 41(12): 61-69,255. doi: 10.13205/j.hjgc.202312007

RESILIENCE EVALUATION OF URBAN RAINWATER DRAINAGE SYSTEM IN PLAIN RIVER NETWORK AREA

doi: 10.13205/j.hjgc.202312007
  • Received Date: 2023-10-24
    Available Online: 2024-03-08
  • With the rapid development of urbanization, the pressure of urban drainage and the occurrence of waterlogging is increasing, and enhancing the "resilience" of rainwater drainage systems is an urgent need of urban development. This study selected a certain area of a plain river network city in the Yangtze River Delta as the research object. Based on the calibrated SWMM model and the existing research result, a resilience evaluation model of the rainwater drainage system was established from two aspects: the amount of waterlogging, and the duration of the system. We ran the model under different rainfall scenarios to analyze the resilience of the rainwater drainage system in the study area. The results show that as the rainfall intensity increases, the system resilience gradually decreases,which means that there is a negatiue linear correlation between the system resilience value and the increase in rainfall intensity. Under the conditions of low recurrence period, the decrease in resilient value is relatively smaller with the increase of rainfall intensity. The larger the recurrence period, the faster the decrease rate of system resilient value. Under the same rainfall recurrence period, as the proportion of impermeable ground increases, the system resilience gradually decreases. In the case of high recurrence period and high proportion of impermeable ground, the system resilient value is relatively lower; under the condition of rainfall with a return period of 10 years, the proportion of impermeable ground in the region increases, and the system's resilient value decreases the fastest. Introducing the concept of resilience into urban rainwater drainage systems and establishing an evaluation system that reflects the resilience of the system in response to external environmental changes and disasters can help comprehensively understand the performance of rainwater drainage systems. It is of great significance for the transformation and optimization of rainwater drainage systems and helpful for urban risk management.
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  • [1]
    ZHOU X, BAI Z, YANG Y. Linking trends in urban extreme rainfall to urban flooding in China[J]. International Journal of Climatology, 2017, 37(13): 4586-4593.
    [2]
    GUPTHA G C, SWAIN S, Al-ANSARI N, et al. Evaluation of an urban drainage system and its resilience using remote sensing and GIS[J]. Remote Sensing Applications-Society and Environment, 2021, 23: 100601.
    [3]
    郑涛, 孙斌栋, 王艺晓. 区域一体化视角下的弹性城市评价:以长江三角洲地区为例[J]. 地理科学, 2022, 42(5):863-873.
    [4]
    CASAL C A, SADR S, FU G, et al. Reliable, resilient and sustainable urban drainage systems: an analysis of robustness under deep uncertainty[J]. Environmental Science & Technology, 2018, 52(16): 9008-9021.
    [5]
    ZHANG L, CHEN X, QIAN H. Diagnosis of resilience to flood hazard in lower reaches of the Beijiang River[J]. Journal of Hydraulic Engineering, 2011(9):1129-1134.
    [6]
    许涛, 王春连, 洪敏. 基于灰箱模型的中国城市内涝弹性评价[J]. 城市问题, 2015(4):2-11.
    [7]
    YANG W, ZHANG J. Assessing the performance of gray and green strategies for sustainable urban drainage system development: a multi-criteria decision-making analysis[J]. Journal of Cleaner Production, 2021, 293: 126191.
    [8]
    FRANCIS R, BEKERA B. A metric and framework for resilience analysis of engineered and infrastructure systems[J]. Reliability Engineering and Analysis of Engineered and Infrastructure Systems, 2014, 121:90-103.
    [9]
    GUPTHA G C, SWAIN S, Al-Ansari N, et al. Assessing the role of SuDS in resilience enhancement of urban drainage system: a case study of Gurugram City, India[J]. Urban Climate, 2022, 41: 101075.
    [10]
    LIU D, CHEN X, TEDDY N. Resilience assessment of water resources system[J]. Water Resources Management, 2012, 26(13): 3743-3755.
    [11]
    柯庆, 王林森, 陶涛. 城市雨水排水系统恢复力评估[J]. 中国给水排水, 2016, 32(21): 6-11.
    [12]
    DONG X, ZENG S. Enhancing future resilience in urban drainage system: green versus grey infrastructure[J]. Water Research. 2017, 124: 280-289.
    [13]
    王琳,陈天. 滨海地区城市水安全弹性分析:以中国112个城市为例[J]. 城市问题,2017(9):39-47.
    [14]
    李树平. 雨水管理模型SWMMH(5.0版)用户手册[A]. 上海: 同济大学环境科学与工程学院, 2011.
    [15]
    康得军, 邱福杰, 温儒杰, 等. 基于SWMM的LID参数局部与全局敏感性分析[J]. 中国给水排水,2023, 39(17):131-138.
    [16]
    刘兴坡. 基于径流系数的城市降雨径流模型参数校准方法[J]. 给水排水, 2009, 45(11):213-217.
    [17]
    刘兴坡, 刘遂庆, 李树平,等. 镇江市主城区排水管网计算机建模方法[J]. 中国给水排水, 2007(11):42-46.
    [18]
    YIN J, YAN D, YANG Z, et al. Projection of extreme precipitation in the context of climate change in Huang-Huai-Hai region, China[J]. Journal of Earth System Science, 2016, 125(5): 417-429.
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