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Çѱ¹ÀǷẹÁö½Ã¼³ÇÐȸÁö ¡ºÀǷᡤº¹Áö °ÇÃà¡» , Vol.31 No.2(Åë±Ç 99È£)(2025-06) |
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»óºÎ°ø°£ Àڿܼ± »ì±ÕÁ¶»çÀåÄ¡; ÀϹݺ´½Ç; ºÎÀ¯¼¼±Õ; °¨¿° Á¦¾î ; Upper-Room Ultraviolet Germicidal Irradiation(UR-UVGI); General Ward; Airborne Bacteria; Infection Control |
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Purpose: This study aimed to experimentally analyze the effectiveness of an Upper-Room Ultraviolet Germicidal Irradiation (UR-UVGI) system in reducing airborne bacteria in a mock-up of a multi-bed general ward. Multi-bed hospital wards pose a high risk of cross-infection via airborne pathogens. Since existing ventilation systems alone have limitations in infection control, evaluating the applicability of UR-UVGI systems is essential. Methods: The experiment was conducted by varying ventilation rates and UR-UVGI operation conditions. Bacillus subtilis (ATCC 6633) was aerosolized from one bed using a nebulizer, and airborne bacteria were collected from the other beds and the HVAC terminal using an impact sampler. UV-C intensity was measured to evaluate its spatial distribution across the room. The quantified bacterial concentrations were used to calculate reduction rates and equivalent air change rates (eACR). Results: Operation of the UR-UVGI system significantly reduced airborne bacterial concentrations under all conditions. A correlation between UV-C intensity and bacterial reduction rates was observed. The equivalent air change rate (eACR) increased by up to 2.97 ACH. Implications: This study experimentally demonstrated that UR-UVGI systems can effectively complement existing ventilation systems as an infection control measure in multi-bed wards. These findings provide scientific evidence supporting the implementation of UR-UVGI systems in hospital settings and are expected to contribute to improved infection control and energy efficiency in healthcare facilities. |
