• Title/Summary/Keyword: Hydrologic Computer Simulation (SWMM)

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Computer simulation study to generate an optimal hydrologic model based on the soil properties of the large area plate roof greenery system (대면적 절판지붕용 녹화시스템의 토성기반 수문학적 최적모델 도출을 위한 전산 모의연구)

  • Kim, Tae-Han;Lee, Ji-Won
    • KIEAE Journal
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    • v.16 no.1
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    • pp.73-79
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    • 2016
  • This study aimed to investigate the flood prevention effect expected from the afforestation of a large area metal roof of an industrial complex located in an area prone to floods in the rainwater outflow reduction aspect through computer simulation based on soil, which is a key element of the system. In order to conduct a more realistic simulation, the properties of the surveyed soil were generated through substantive analysis, soil texture analysis, and saxton method. A comparative performance evaluation was conducted by using soil depth and ponding depth, which are key elements of the system, as variables. The study result showed that during the heavy rainfall period, the bottom ash artificial soil had 61% rainwater outflow reduction effect, which was 11% higher than the SWMM standard sand.

A Study for the Computer Simulation on the Flood Prevention Function of the Extensive Green Roof in Connection with RCP 8.5 Scenarios (RCP 8.5 시나리오와 연동한 저관리형 옥상녹화시스템의 수해방재 성능에 대한 전산모의 연구)

  • Kim, Tae Han;Park, Sang Yeon;Park, Eun Hee;Jang, Seung Wan
    • Journal of the Korean Society of Environmental Restoration Technology
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    • v.17 no.3
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    • pp.1-11
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    • 2014
  • Recently, major cities in Korea are suffering from frequent urban flooding caused by heavy rainfall. Such urban flooding mainly occurs due to the limited design capacity of the current drainage network, which increases the vulnerability of the cities to cope with intense precipitation events brought about by climate change. In other words, it can be interpreted that runoff exceeding the design capacity of the drainage network and increased impervious surfaces in the urban cities can overburden the current drainage system and cause floods. The study presents the green roof as a sustainable solution for this issue, and suggests the pre-design using the LID controls model in SWMM to establish more specific flood prevention system. In order to conduct the computer simulation in connection with Korean climate, the study used the measured precipitation data from Cheonan Station of Korea Meteorological Administration (KMA) and the forecasted precipitation data from RCP 8.5 scenario. As a result, Extensive Green Roof System reduced the peak runoff by 53.5% with the past storm events and by 54.9% with the future storm events. The runoff efficiency was decreased to 4% and 7%. This results can be understood that Extensive Green Roof System works effectively in reducing the peak runoff instead of reducing the total stormwater runoff.