Abstract
Worldwide, climate change increases the frequency and intensity of heavy rainstorms. The increasing severity of consequent floods has major socio-economic impacts, especially in urban environments. Urban flood modelling supports the assessment of these impacts, both in current climate conditions and for forecasted climate change scenarios. Over the past decade, model frameworks that allow flood modelling in real-time have been gaining widespread popularity. Flood4castRTF is a novel urban flood model that applies a grid-based approach at a modelling scale coarser than most recent detailed physically based models. Automatic model set-up based on commonly available GIS data facilitates quick model building in contrast with detailed physically based models. The coarser grid scale applied in Flood4castRTF pursues a better agreement with the resolution of the forcing rainfall data and allows speeding up of the calculations. The modelling approach conceptualises cell-to-cell interactions while at the same time maintaining relevant and interpretable physical descriptions of flow drivers and resistances. A case study comparison of Flood4castRTF results with flood results from two detailed models shows that detailed models do not necessarily outperform the accuracy of Flood4castRTF with flooded areas in-between the two detailed models. A successful model application for a high climate change scenario is demonstrated. The reduced data need, consisting mainly of widely available data, makes the presented modelling approach applicable in data scarce regions with no terrain inventories. Moreover, the method is cost effective for applications which do not require detailed physically based modelling.
Highlights
Since the 1970s the development and application of flood inundation models has been an important part of research on floods [1]
In urban environments, floods can have a very high economic and social cost. These impacts will certainly further increase in future due to climate change and further urbanisation
This paper presents the Flood4castRTF model based on an application to a typical urban area in Flanders to assess the impact of climate change on the urban flood probability
Summary
Since the 1970s the development and application of flood inundation models has been an important part of research on floods [1]. In urban environments, floods can have a very high economic and social cost. These impacts will certainly further increase in future due to climate change and further urbanisation. Due to the specific characteristics of urban environments and the high socio-economic impact of floods in urban areas, urban flood models have been developed. These urban flood models take into account the urban drainage system which has an important influence on the occurrence of floods in urban environments
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