Articles | Volume 18, issue 1
https://doi.org/10.5194/nhess-18-79-2018
https://doi.org/10.5194/nhess-18-79-2018
Research article
 | 
05 Jan 2018
Research article |  | 05 Jan 2018

Mechanism of groundwater inrush hazard caused by solution mining in a multilayered rock-salt-mining area: a case study in Tongbai, China

Bin Zeng, Tingting Shi, Zhihua Chen, Liu Xiang, Shaopeng Xiang, and Muyi Yang

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Cited articles

Blachowski, J., Milczarek, W., and Stefaniak, P.: Deformation information system for facilitating studies of mining-ground deformations, development, and applications, Nat. Hazards Earth Syst. Sci., 14, 1677–1689, 2014. 
Bonetto, S., Fiorucci, A., Fornaro, M., and Vigna, B.: Subsidence hazards connected to quarrying activities in a karst area: the case of the Moncalvo sinkhole event (Piedmont, NW Italy), Est. J. Earth Sci., 57, 125–134, 2008. 
Chen, H. J. and Li, X. Bi.: Studies of water source determination method of mine water inrush based on Bayes' multi-group stepwise discriminant analysis theory, Rock and Soil Mechanics, 30, 3655–3659, 2009. 
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Closson, D. and Abou Karaki, N.: Salt karst and tectonics: sinkholes development along tension cracks between parallel strike-slip faults, Dead Sea, Jordan, Earth Surf. Proc. Land., 1408–1421, 2009. 
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The solution mining of salt mineral resources may contaminate groundwater and lead to water inrush out of the ground due to brine leakage. The geological condition determines the total risk; physical–chemical reaction principle analysis and hydrogeochemical simulation can determine the source of the brine leakage and identify the mixed proportion of inrush water in a multilayered rock salt mining area. The research is advantageous for groundwater protection and public health.
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