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Journal Articles

Hydrochemical influence of shotcrete used in underground facilities on groundwater chemistry; Proposal of the evaluation method by geochemical simulation code

Iwatsuki, Teruki; Shibata, Masahito*; Murakami, Hiroaki; Watanabe, Yusuke; Fukuda, Kenji

Doboku Gakkai Rombunshu, G (Kankyo) (Internet), 75(1), p.42 - 54, 2019/03

https://doi.org/10.2208/jscejer.75.42

In order to clarify the influence of shotcrete in the underground facility on the groundwater chemistry, an in-situ closed test was conducted in the mock-up tunnel at the depth of 500 m. Brucite, Ettringite, Ca(OH) $_{2}$ , Gibbsite, K $_{2}$ CO $_{3}$ , Na $_{2}$ CO $_{3}$ 10H $_{2}$ O, SiO $_{2}$ (a) and Calcite were identified as the dominant minerals affecting the water chemistry. Furthermore, the shotcrete constructed in the tunnel has a reaction capacity which can produce about 570 m $^{3}$ of alkaline groundwater (pH12.4) saturated with Ca(OH) $_{2}$ . The estimation would improve the accuracy of prediction analysis of the long-term chemical influence of cement materials after the closure of the tunnel.

Oral presentation

Mizunami Underground Research Laboratory Project; Evaluation method of hydrochemical influence of cement for groundwater

Iwatsuki, Teruki; Murakami, Hiroaki; Watanabe, Yusuke; Fukuda, Kenji

no journal, ,

We considered the evaluation method of chemical influence of cement material on groundwater when closing tunnel. As a result, it is considered that long-term pH condition around the tunnel can be estimated by thermodynamic analysis of the groundwater flow, the applied cement material, accompanying water chemistry and the amount of alkaline groundwater.