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This study analyzes the indoor air quality inspections of newly constructed apartments by the Busan Institute of Health and Environment for the last three years (2021-2023). Of the 41 inspections, 33 exceeded the recommended standard, and the average excess rate was 80.5%. When classified by measuring households, 148 out of 332 exceeded the standards, whereas, the average excess rate by household was 44.6%. Benzene was exceeded in two out of the 332 households; therefore, the excess rate was only 0.6%. However, the relative standard deviation was the largest, showing as the highest item in the scattergram. The average concentration of toluene was 1,006.0 μg/m3, which was 100.6% of the recommended standard and was exceeded by 138 households; hence,￿ᅠ the excess rate was 41.6%. All six items(Formaldehyde, Benzene, Toluene, Ethylbenzene, Xylene, Styrene) reached the highest concentration in spring or summer when the indoor temperature increased. The average concentration of toluene in July was 1,922 μg/m3, close to 1.9 times the recommended standard; toluene is considered ￿ᅠ an item of particular concern in summer. In the correlation analysis with indoor temperature, the formaldehyde coefficient of determination was 0.4855, regarded as somewhat significant; it was difficult to confirm the correlation with temperature for the other five items, including benzene. In correlation with relative humidity, formaldehyde showed the same tendency as indoor temperature, with a coefficient of determination of 0.4404, which is believed to be due to its small molecular weight and high solubility. Due to the chimney effect, high concentrations of volatile organic compounds could be confirmed at low atmospheric pressure in the upper floors, and this trend was most evident for formaldehyde. For most items(Formaldehyde, Benzene, Toluene, Ethylbenzene, Styrene), a negative correlation was confirmed in which the emission amount decreased as the number of households increased. For large apartment houses, it is believed that it is due to sufficient bake-out and flush- out according to the adequate construction period and the use of eco-friendly and high-end building materials. Small apartments are classified together with many small houses. The emission concentration of small houses is relatively high because the proportion of the surface area where pollutants are released is high.

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기사명 저자명 페이지 원문 목차
산업폐수 중 과불화화합물 분석결과의 불확도 평가 = Uncertainty evaluation for the determination of perfluorinated compounds in wastewater treatment facility effluent 최필권, 이진영, 서수정, 정선희, 황선민, 황찬원 p. 123-131
경기도 내 주요 저수지의 수질 및 남조류 독소 발생 특성 = Water quality assessment and genetic insights into cyanobacterial toxin presence in Gyeonggi Province reservoirs 고순미, 김용준, 김영연, 강경희, 심규승, 문희천, 정주용 p. 132-141
경기북부 개별사업장 및 공공하·폐수처리장의 노닐페놀, 옥틸페놀 거동특성 연구 = Effects of nonylphenol and octylphenol on wastewater discharge facilities in northern Gyeonggi province 윤수현, 정종필, 서인숙, 김지영, 김수현, 유한조, 손해준, 백다원, 최수련, 양지훈, 권보연 p. 142-150
신축공동주택의 실내공기질 실태분석 = An indoor air quality analysis in newly constructed apartments 유상웅, 손정원, 지화성, 김정미, 김소윤, 류경림, 정현철 p. 151-167
LC-MS/MS 기반의 총 마이크로시스틴 신규 수질 분석법 = Analysis of total microcystins using LC-MS/MS : method improvements and sample applications : MMPB 분석방법 성능 개선과 시료 적용성 평가 김민정, 안성윤, 최재원 p. 168-174
안산 도심지 PM10, PM2.5 및 PM1.0 비율 분포 특성 = Annual variations of PM10, PM2.5 and PM1.0 fraction at an urban site in Ansan, Korea 김필호, 신수현, 김창혁, 박종성, 황규철, 김종범, 박정민, 김정호 p. 175-184

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