Journal of environmental and Sanitary engineering (환경위생공학)

Korean Society for Environmental Sanitary Engineers (대한환경위생공학회)
권호 표지

A Study of Indoor Air Quality of Public Facilities in Chung-Nam Area

충남지역 미적용 다중이용시설의 실내공기질에 관한 연구

  • Hong, Sung-Chul (Dept. of Environmental Health Science, Soonchunhyang University) ;
  • Jou, Hye-Mee (Dept. of Environmental Health Science, Soonchunhyang University) ;
  • Cho, Tae-Jin (Dept. of Environmental Health Science, Soonchunhyang University) ;
  • Lee, Che-Won (Dept. of Environmental Health Science, Soonchunhyang University) ;
  • Jung, Yong-Taek (Dept. of Environmental Health Science, Soonchunhyang University) ;
  • Son, Bu-Soon (Dept. of Environmental Health Science, Soonchunhyang University)
  • 홍성철 (순천향대학교 환경보건학과) ;
  • 조혜미 (순천향대학교 환경보건학과) ;
  • 조태진 (순천향대학교 환경보건학과) ;
  • 이치원 (순천향대학교 환경보건학과) ;
  • 정용택 (순천향대학교 환경보건학과) ;
  • 손부순 (순천향대학교 환경보건학과)
  • Published : 2008.06.30
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Abstract

In order to recommend criteria for the administration law on indoor air quality, this study was conducted to examine the distribution and the concentration of indoor air pollutants ($PM_{10},\;CO_2$, CO, HCHO, TBC, $NO_2$, Rn, VOCs, asbestos, $O_3$) in public facilities in the Chung-Nam area. The concentrations of indoor air pollutants were obtained from sixty seven public facilities such as a cinema, an office, a restaurant, a theater and an academy. This study was performed from August to December, 2005. The results of this study showed that the concentrations of indoor air pollutants such as $PM_{10},\;CO_2$, CO, HCHO, TBC, Rn and $O_3$ were less than the recommended limits. However, the average concentration of VOCs was $521.73{\mu}g/m^3$ (GM : $221.69{\mu}g/m^3$), which was higher than the recommended limit of $400{\mu}g/m^3$. Moreover, the average concentration of $NO_2$ was 345.66ppb (GM : 69.95ppb), which was higher than the recommended limit of 50 ppb. The correlation between the concentrations of indoor air pollutants and the type of facilities with respect to $CO_2$, TBC and Rn was statistically low (p<0.05). However, the correlation was high in terms of the CO and $O_3$ concentrations (p<0.01). No relationship between the indoor air pollutants and the type of facilities was observed for $PM_{10}$, VOCs and $NO_2$. The year of construction was compared to the concentrations of indoor air pollutants. Specifically, when the construction date was less than 3 years, the HCHO, VOCs and TBC concentrations were $44.75{\mu}g/m^3,\;555.07{\mu}g/m^3$ and $337.79CFU/m^3$, respectively. These concentrations were $120{\mu}g/m^3$ and $211.84CFU/m^3$ higher for VOCs and TBC than the concentrations obtained from the facilities more than 3 years. However, the concentration of HCHO was similar between the facilities older and younger than 3 years of age. Year, temperature, humidity and indoor air pollutant correlation analyses showed that temperature and humidity, temperature and TBC, temperature and $O_3,\;PM_{10}$ and $NO_2$, HCHO and VOCs, $CO_2$ and Rn had positive relationships. However temperature and Rn, humidity and $CO_2,\;CO_2$ and $O_3,\;O_3$ and Rn had negative relationships. Accordingly, it will be necessary to manage the factors affecting indoor air quality so that the residents can have a more comfortable and healthier living environment. Ultimately, the results of this study are expected to be utilized as baseline data.

Keywords

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