Abstract
Extreme rainfall causes surface runoff to flow towards lowlands and subterranean facilities, such as subway stations and buildings with underground spaces in densely packed urban areas. These facilities and areas are therefore vulnerable to catastrophic submergence. However, flood modeling of underground space has not yet been adequately studied because there are difficulties in reproducing the associated multiple horizontal layers connected with staircases or elevators. This study proposes a convenient approach to simulate underground inundation when two layers are connected. The main facet of this approach is to compute the flow flux passing through staircases in an upper layer and to transfer the equivalent quantity to a lower layer. This is defined as the ‘adaptive transfer method’. This method overcomes the limitations of 2D modeling by introducing layers connecting concepts to prevent large variations in mesh sizes caused by complicated underlying obstacles or local details. Consequently, this study aims to contribute to the numerical analysis of flow in inundated underground spaces with multiple floors.
Highlights
The risk of underground flood damage has increased because the number and diversity of underground facilities that can be damaged in urban areas has increased
This study aims to contribute to the numerical analysis of flow routing of inundated underground spaces with multiple floors
This study proposes a practical approach for simulating underground inundation occurring in two layers in a connective way
Summary
Examination of the flood disaster damage data for 2000 to 2010, taken from the international disaster data server EM-DAT in the CRED (Center for Research on the Epidemiology of Disaster), shows that Asia is a region vulnerable to flood disasters, with 70% of the global casualties (3949 per year) and 50% of the global economic damage ($1 billion USD per year) These conditions apply to the Republic of Korea: major cities are experiencing increased localized heavy rainfall, and the effective rainfall is not completely contained by the sewage collection system. The risk of flood damage has increased because of intensive urbanization and associated densification of infrastructure [1]. The risk of underground flood damage has increased because the number and diversity of underground facilities that can be damaged in urban areas has increased
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