Impact of climate change on stormwater drainage in urban areas

Abstract

Climate change and urbanization are significantly magnifying flood hazard, leading to a greater vulnerability of urban concentrations. This paper investigates the impact of climate change on urban flooding using future projected rainfall data and a calibrated hydraulic model. Two urban watersheds in delhi, india (the qudesia nallah catchment and the jahangirpuri drain catchment) are considered to evaluate the climate change impact on urban flooding. Regional climate models (rcms) are used to project future precipitation, which is then utilized by the hydraulic model to evaluate the impact on flooding. Climate data from three rcms extracted from the coordinated regional climate downscaling experiment (cordex) are used to study the impact of climate change for historical (1990–2016) and future scenario (representative concentration pathway (rcp) 4.5, 2021–2100). The rainfall projections are fed as 2-, 5-, 10-, and 20-year return periods to a calibrated hydrodynamic storm water management model (swmm). The results show that the flooded nodes vary between 2–6 and 12–43, respectively, in the qudesia nallah catchment and the jahangirpuri drain catchment under present conditions but increase from 11 to 51 and 42 to 91, respectively, for future climate conditions. The results suggest that the risk of occurrence of flooding, duration, and frequency in the two study areas will increase in the future when compared to those under the present conditions. The results also indicate that the damage induced by the 20-year return period rainfall at the present time will likely be caused just by the 2-year return period in the future. This is due to the greater likelihood of rainfall extremes in the region. The potential flooding sites identified in this study will provide the urban municipalities with substantive information to perform ameliorative strategies. © 2021, the author(s), under exclusive licence to springer-verlag gmbh germany, part of springer nature.