Abstract
Coupled with climate change, the urbanization-driven increase in the frequency and intensity of floods can be seen in both developing and developed countries, and Malaysia is no exemption. As part of flood hazard mitigation, this study aimed to simulate the urban flood scenarios in Malaysia’s urbanized catchments. The flood simulation was performed using the Personal Computer Storm Water Management Model (PCSWMM) modeling of the Damansara catchment as a case study. An integrated hydrologic-hydraulic model was developed for the 1-D river flow modeling and 1-D–2-D drainage overflow modeling. The reliability of the 1-D river flow model was confirmed through the calibration and validation, in which the water level in TTDI Jaya was satisfactorily predicted, supported by the coefficient of determination (R2), Nash–Sutcliffe model efficiency coefficient (NSE), and relative error (RE). The performance of the 1-D–2-D model was further demonstrated based on the flood depth, extent, and risk caused by the drainage overflow. Two scenarios were tested, and the comparison results showed that the current drainage effectively reduced the drainage overflow due to the increased size of drains compared to the historic drainage in 2015. The procedure and findings of this study could serve as references for the application in flood mitigation planning worldwide, especially for developing countries.
Highlights
Flood, coupled with climate change and urban development, is by far the most common natural disaster
The results show that the PCSWWM model yields Nash–Sutcliffe model efficiency coefficient (NSE) and relative error (RE) values of 0.10 and 10.58%, respectively
The results show that the continuity errors of surface runoff and flow routing are within ±0.1%, indicating a satisfactory convergence
Summary
Flood, coupled with climate change and urban development, is by far the most common natural disaster. Over the past few decades, a trend towards increasing frequency in flood events has been observed globally in response to rapid urbanization [1,2]. The conversion of a natural catchment to an urbanized catchment usually increases the impermeable surfaces, reducing ground infiltration and increasing the surface runoff rates [3]. This phenomenon leads to urban flood issues arising from insufficient flow capacities of rivers or drainage, especially during extreme precipitation events. It is necessary to manage urban growth sustainably to reduce the impact of urban flooding
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