포천 관인취수장 수원에 대한 수리지질 및 수리지구화학적 평가 (Hydrogeologic and Hydrogeochemical Assessment of Water Sources in Gwanin Water Intake Plant, Pocheon)

신복수; 고동찬 (Dong-Chan Koh); 장윤영 (YOON-YOUNG CHANG)

doi:10.14249/eia.2016.25.3.209

Hydrogeologic and Hydrogeochemical Assessment of Water Sources in Gwanin Water Intake Plant, Pocheon

Journal of Environmental Impact Assessment
Abbr : J EIA
2016, 25(3), pp.209-221
DOI : 10.14249/eia.2016.25.3.209
Publisher : Korean Society Of Environmental Impact Assessment
Research Area : Engineering > Environmental Engineering

신복수 ¹, Dong-Chan Koh ², YOON-YOUNG CHANG ³

¹광운대학교 환경공학과
²한국지질자원연구원
³광운대학교

Accredited

ABSTRACT

The section from water source to 2.6km upper stream of Hantan River is protected as the drinking water quality protection area according to guidelines of Ministry of Environment, because water source of the Gwanin water intake plant has been known the river. However, opinions were consistently brought up that the standard of water source protection zone must be changed with using underground water as water source because of contribution possibility of underground water as the water source of Gwanin water intake facility. In this regard, hydrogeologic investigation including resistivity survey and hydrogeochemical investigation were carried out to assess water source and infiltration of contaminant for the plant. Quaternary basaltic rocks (50m thick with four layers) covered most of the study area on the granite basement. As the result of the resistivity survey, it is revealed that permeable aquifer is distributed in the boundary of two layers: the basaltic layer with low resistivity; and the granite with high resistivity. Considering of outflow from Gwanin water intake facility, the area possessing underground water was estimated at least 5.7km2. The underground water recharged from Cheorwon plain was presumed to outflow along the surface of unconformity plane of basalt and granite. Based on field parameters and major dissolved constituents, groundwater and river water clearly distinguished and the spring water was similar to groundwater from the basaltic aquifer. Temporal variation of SiO2, Mg, NO3, and SO4 concentrations indicated that spring water and nearby groundwater were originated from the basaltic aquifer and other groundwater from granitic aquifer. In conclusion, the spring of the Gwanin water intake plant was distinguished from river water in terms of hydrogeochemical characteristics and mainly contributed from the basaltic aquifer.

KEYWORDS

Groundwater, Drinking water source, Hydrogeologic, Hydrogeochemistry, Resistivity survey, Basaltic aquifer

Citation status

* References for papers published after 2023 are currently being built.

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Journal of Environmental Impact Assessment 2023 KCI Impact Factor : 0.51

Hydrogeologic and Hydrogeochemical Assessment of Water Sources in Gwanin Water Intake Plant, Pocheon

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* References for papers published after 2023 are currently being built.

Journal of Environmental Impact Assessment 2023 KCI Impact Factor : 0.51

Hydrogeologic and Hydrogeochemical Assessment of Water Sources in Gwanin Water Intake Plant, Pocheon

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* References for papers published after 2023 are currently being built.