Abstract
Malaysia, being a tropical country located near the equatorial doldrums, experiences the annual occurrence of flood hazards due to monsoon rainfalls and urban development. In recent years, environmental policies in the country have shifted towards sustainable flood risk management. As part of the development of flood forecasting and warning systems, this study presented the urban flood simulation using InfoWorks ICM hydrological−hydraulic modeling of the Damansara catchment as a case study. The response of catchments to the rainfall was modeled using the Probability Distributed Moisture (PDM) model due to its capability for large catchments with long-term runoff prediction. The interferometric synthetic aperture radar (IFSAR) technique was used to obtain high-resolution digital terrain model (DTM) data. The calibrated and validated model was first applied to investigate the effectiveness of the existing regional ponds on flood mitigation. For a 100-year flood, the extent of flooded areas decreased from 12.41 km2 to 3.61 km2 as a result of 64-ha ponds in the catchment, which is equivalent to a 71% reduction. The flood hazard maps were then generated based on several average recurrence intervals (ARIs) and uniform rainfall depths, and the results showed that both parameters had significant influences on the magnitude of flooding in terms of flood depth and extent. These findings are important for understanding urban flood vulnerability and resilience, which could help in sustainable management planning to deal with urban flooding issues.
Highlights
Floods have been among the natural disasters globally responsible for an average of 0.1% of total deaths over the past decade [1]
The simulated inundation areas are correlated with the parameters of average recurrence intervals (ARIs) and the amount of water discharged during a rainfall event
−hydraulic modeling urban floods in the Damansara by the amount of water discharged during a rainfall event
Summary
Floods have been among the natural disasters globally responsible for an average of 0.1% of total deaths over the past decade [1]. ICM to develop a hydrological−hydraulic model for urban flood simulation in a tropical catchment (a case study of the Damansara catchment, Malaysia). In this framework, the model is generated based on an interferometric synthetic aperture radar (IFSAR) derivate Digital Terrain Model (DTM) and is processed within GIS, to improve the flood maps’ accuracy. In the last part of this study, the flood hazard maps are generated for various scenarios, considering the magnitude of rainfall events and the rainfall depths The correlation between both parameters and the resulting flood extent is presented, which could serve as references for application in flood mitigation planning in other similar tropical regions.
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