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원내 공기감염 확산 방지를 위한 격리병실의 CFD 해석
양영권(Yang, Young Kwon),강인성(Kang, In Sung),황정하(Hang, Jung Ha),박진철(Park, Jin Chul) 대한건축학회 2016 대한건축학회 학술발표대회 논문집 Vol.36 No.2
The objective of the study is to improve the performance of the AII(Air-borne Infection Isolation) Room for the Prevention of the spread of infectious diseases in hospital. For evaluation of AII room, CFD(Computational Fluid Dynamics) technique method was suggested. First, investigated the mechanism and type of airborne infection. Second, investigated the AII room regulations and standards Third, analyzed the Simulation results for different type of bed arrangement, distance and toilet location. The AII room have high-performance that prevention of airborne infection better than general ward. And beds in Opposition to each other is Low risk of airborne infection than parallel arrangement.
원내 공기감염 확산 방지를 위한 격리병실의 CFD 해석
양영권(Yang, Young Kwon),강인성(Kang, In Sung),원안나(Won, An-Na),황정하(Hang, Jung Ha),박진철(Park, Jin Chul) 대한건축학회 2017 大韓建築學會論文集 : 構造系 Vol.33 No.3
The present study is a foundational study for performance improvements on isolation wards to prevent proliferation of secondary infection of infectious diseases such as SARS, H1N1, and MERS inside hospitals. Accordingly, the present study conducted an analysis of the effect of sealing mechanisms and filling of openings on ensuring air tightness performance in isolation wards as well as simulation on air currents in improved isolation wards. The study method is as follows: first, previous studies on aerial infection types and mechanisms were reviewed and the review results were utilized as basic data for analysis of the simulation of air currents. Second, national and international legislations and regulations in relation to isolation wards as well as case studies on developed nations were investigated in order to identify the problems in isolation wards in Korea and improvement plans. Third, construction and facility plans were compared and analyzed between general and isolation wards focusing on large general hospitals in Korea thereby conducting comparison and analysis on the performance and effects of air-tightness of general and isolation wards through simulations(CFD). Fourth, an analysis on air currents in isolation wards specified in mandatory legislation (draft) from the Ministry of Health and Welfare such as fulfillment of isolation ward requirements including negative pressure isolation wards, areas of ward and intensive care units, and ensuring separation distance between sickbeds was conducted. The study result showed that isolation wards had better air-tightness performance than that of general wards and parallel bed layout was better than serial bed layout in terms of aerial infection substance proliferation. In addition, when a separation distance between sickbeds was 2m or wider, the risk of aerial infection became significantly lower.