A Study on the Water Quality of Reservoir Tank in the Building Complex on Jeonnam Area

대형건축물 저수조의 수질실태 및 개선방안에 관한 연구

  • Lee, J.H. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Lee, H.H. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Kim, H.B. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Ahn, G.W. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Park, K.N. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Kim, Y.K. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Bae, J.S. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Mun, H. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Park, C.U. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Oh, E.H. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Park, S.I. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division) ;
  • Seo, Y.G. (Chonnam Institute of Public Health and Environment Water Quality Analysis Division)
  • 이지헌 (전라남도 보건환경연구원 수질분석과) ;
  • 이해훈 (전라남도 보건환경연구원 수질분석과) ;
  • 김환범 (전라남도 보건환경연구원 수질분석과) ;
  • 안길원 (전라남도 보건환경연구원 수질분석과) ;
  • 박귀님 (전라남도 보건환경연구원 수질분석과) ;
  • 김양기 (전라남도 보건환경연구원 수질분석과) ;
  • 배주순 (전라남도 보건환경연구원 수질분석과) ;
  • 문희 (전라남도 보건환경연구원 수질분석과) ;
  • 박철웅 (전라남도 보건환경연구원 수질분석과) ;
  • 오은하 (전라남도 보건환경연구원 수질분석과) ;
  • 박송인 (전라남도 보건환경연구원 수질분석과) ;
  • 서윤규 (전라남도 보건환경연구원 수질분석과)
  • Published : 2000.12.01

Abstract

This study was carried out to investigate on several factors, which contaminative the water quality through the water pipe during feeding water, in 42 largescaled apart-ments(total 84 cases) and assayed the Volatile Organic Compounds(VOCs) and concen-tration of heavy metals that inflow and outflow in reservior water in Jeonnam area(Mokpo, Suncheon, Yeosu) from January 1999 to December 1999. The results obtained were summarized as follows ; 1. The quality of the water pipe composition in the order of frequency in the quality of water pipes were Copper(45.2%)> Zinc(38.9%)> Stainless steel(9.5%)> PVC(4.8%)> PM(2.4%) in observing 42 sites. All of the drain pipes were used the cast iron quality. 2. The result of certification curve from 12 items(17kind) of VOCs was $1.0-4.0{\mu{g}}/{\ell}$ range, a coefficient of correlation was shown 0.99 over. A MDL of each substance range was within $0.1-1.0{\mu{g}}/{\ell}$. 3. The result of the assay, 5 kinds(Viny chloride, Dichloromethane, Ethylbenzene, M,P-xylene, Styrene) of the VOCs of 14 kinds was not detected and the other items were detected slightly. The detection rate of one item and over in total VOCs samples, were 25.9% in inflow and 27.9% in outflow. And frequency of detect in inflow/outflow of THM(Chloroform, Bromodichloro-methane, Dibromochloromethane, Bromoform) were shown higher than 94.1%, 97.0% each stages. It comes to the conclusion that all of the samples were reason able for drinking water standards. 4. The coefficient of correlation were reasonable, it shown 0.999 over in $0.1-1.0{\mu{g}}/{\ell}$ of a measuring range conditions of 4kinds in organic substance(Zn, Cu, Fe, Mn). 5. The results were showed suitability in 78 cases(92.9%) and unsuitability in 6 cases (7.1%), in 84 cases of in organic substances. Compare to inflow stage, mean concentrations of heavy metal, were increased slightly in Zn, Cu, Fe except Mn than outflow stage. The result of the mean concentration in organic substance inflow and outflow in the apartment water tank using Pair-compared T-test, in 95% reliance index, were $0.179mg/{\ell}(0.151-0.307mg/{\ell})$ in Zinc, $0.136mg/{\ell}(0.113-0.230mg/{\ell})$ in Copper, $0.052mg/{\ell}(0.048-0.098mg/{\ell})$ in Fe, and there was a bit growing tendency but there was no differece in Mn. 6. The mean concentration of Copper which used Cu pipe as a water supply pipe in apartment were $0.216mg/{\ell}(0.161-0.338mg/{\ell})$ in case of the Zine pipe were $0.286mg/{\ell}(0.204-0.435mg/{\ell})$. It shows that the detection rate was more higher than the other material used in Cu or Zn as the water supply pipe. We supposed to Cu and Zn substance were gushing out water supply pipe.

Keywords

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