Climate change has increased the damage caused by subtropical rainfall and typhoons in coastal areas. Major flooding factors in coastal areas can be classified as storm surges, river inundation, and inland submergence. Because previous studies usually applied a linear sum of individual inundation components to predict comprehensive flood phenomena, this approach does not consider weighted effects associated with the simultaneous occurrence of complex flooding. In this study, a series of comprehensive flood simulations were performed using two numerical models: HDM-2D and FLUval Modeling ENgine (FLUMEN). The results revealed that an integrated flood analysis considering the effects of inundation flooding, river flooding, and coastal flooding required evaluation of the risk of flooding in coastal cities.
Increases in the frequency and severity of extreme rainfall might cause catastrophic submergence of underground spaces. Therefore, it is essential to predict the flood risk for proactive design. This study presents the methodology of acquiring risk level considering both flood intensity and evacuation difficulty. The flood momentum was computed by a 2D hydraulic flow model, and the flood intensity (FI) was employed to evaluate the consequence of flooding. To investigate the level of evacuation difficulty, the spatial layout of rooms, together with walking speed, were considered in the risk analysis process. If stormwater runoff enters an underground space, zones far away from the inlet usually have low risk levels. However, when the level of evacuation difficulty was considered, the risk level was dependent on the evacuation distance and location of the inlet and exit. If people are in zones with a risk level of 4 or 5, a rapid evacuation is necessary for preventing human casualties. The proposed methodology incorporated with the inundation model can be applied to any underground space regardless of the location of stairs, the number of exits, shape of rooms, or layout of the floor. Consequently, it will contribute to mitigating flood damage in an underground space.
Owing to climate change, torrential rains and typhoons have become more frequent. However, to cope with this threat, conventional flood management suffers from limitations and difficulties because of the practice of uniform flood prevention measures being applied to all stream sections according to river grade classification. A wide array of measures should be considered to differentiate flood protection targets: adaptive flood management strategy is one such effort. One obstacle, however, to introducing such a measure is lack of clarity over how to divide quantitatively the degree of risk from flooding. In this study, we undertook quantitative risk assessment to determine the risk level in a riparian zone. We compared our results with statistically derived societal risk limits to determine whether the risk level was acceptable within the framework of the tolerance risk limit. We found that the flood risk could be reduced through adaptive flood management.
Helicopters that can respond rapidly to medical accidents are used frequently on sites that require firefighting and medical services. Therefore, Korea recommends that high-rise buildings install heliports for easy evacuation through an alteration to the Building Act. However, because heliport installation laws are inconsistent with the specifications of each heliport on high-rise buildings being different, helicopter landing in emergencies may be hindered. This may result in failure to respond to an accident. To minimize complications, the International Civil Aviation Organization (ICAO) and the Federal Aviation Administration (FAA) determine helicopter take-off and landing regulations as well as heliport operations. This method minimizes human error in pilots and allows for the maintenance of facilities, minimizing technical errors. Therefore, this study investigates the current status of domestic rooftop heliports and attempts to derive measures that improve domestic legislation through comparison with overseas standards to identify higher standards.
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