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      Simulation and Assessment of Projected Climate Change Impacts on Urban Flood Events: Insights From Flooding Characteristic Metrics

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          Abstract

          Urban flooding is a global water disaster resulting from the expansion of urban impervious surfaces and the strengthening of extreme precipitation events, especially in China. Nonetheless, few studies have focused on the spatial distributions of urban flooding characteristics and their variations in the context of climate change. In this study, eight critical metrics (i.e., maximum flooding volume, total overloaded manholes with different flooding volumes or durations, total flooding volume, mean and maximum flooding durations, maximum inundation area, and depth) are adopted to characterize the urban flood events. The impacts of climate change on these metrics are assessed for two periods, the 2030s (2020–2049) and 2070s (2060–2089), and compared with those in the baseline period (1976–2005). The Future Science City Park in Beijing, China, is selected as our study area. The results show that all four flood events are well simulated, with both efficiency coefficients and correlation coefficients being over 0.8. The number of overloaded manholes and the total flooding volume are projected to increase 19.3%–44.8% and 171%–716% under 20‐year rainfall events due to climate change in the two future periods. The spatial distribution of overloaded manholes with different increased flooding volumes is projected to expand to almost the whole area from the region with lowland and limited drainage capacity. Furthermore, the maximum inundation area and depth are projected to increase obviously. This study will be helpful for designing and improving the drainage system, controlling urban flooding, and adapting to climate change.

          Key Points

          • Flood events related to volume, duration, and inundation metrics are well simulated by integrated SWMM and NewFlood model with a GA algorithm

          • Flooding volume and duration, inundation area, and depth are projected to increase in the future

          • The overloaded manholes are projected to expand to the whole area except the region with low impact development applications

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          Most cited references75

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          Changes in temperature and precipitation extremes in the CMIP5 ensemble

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            More extreme precipitation in the world’s dry and wet regions

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              Flood risk and climate change: global and regional perspectives

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                Author and article information

                Contributors
                Journal
                Journal of Geophysical Research: Atmospheres
                JGR Atmospheres
                American Geophysical Union (AGU)
                2169-897X
                2169-8996
                February 16 2022
                January 31 2022
                February 16 2022
                : 127
                : 3
                Affiliations
                [1 ] Key Laboratory of Water Cycle and Related Land Surface Processes Institute of Geographic Sciences and Natural Resources Research Chinese Academy of Sciences Beijing China
                [2 ] School of Water Conservancy Science and Engineering Zhengzhou University Zhengzhou China
                [3 ] Beijing Water Science and Technology Institute Beijing China
                Article
                10.1029/2021JD035360
                495e88f5-4bd6-4a89-82c5-47c4dc466288
                © 2022

                http://onlinelibrary.wiley.com/termsAndConditions#vor

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