Abstract
The Yuyang Coal mine drainage can potentially have a negative impact on the surrounding drinking water, including the Hongshixia water source, causing detrimental effects to the environment and on human health. Here, contamination from the coal mine was analyzed by physicochemical interpretation and numerical simulation. We constructed two sampling profiles along the groundwater flow and transverse directions, and collected twenty-six groundwater samples near the drainage ponds from the Yuyang coal mine for physicochemical analysis and interpretation. And in terms of the numerical simulations, we chose the MODFLOW software to describe river, drainage ponds and reservoir and establish the flow model. We chose the MT3DMS modular software to build a solute transport model, and established a three-dimensional transient numerical model to predict the migration of total Fe and SO4 2−. The physicochemical analytical results indicate the groundwater quality degrades as we approach the drainage ponds. The variations of ion concentrations in the eastward and northward directions show the migration distance of the contaminants in the eastward direction (e.g., the direction of groundwater flow) is much greater to that in the northward direction (e.g., perpendicular to the groundwater flow direction). Numerical simulation results suggest within the predicted days, the concentrations of Fe and SO4 2− in the mine drainage ponds will be higher to that of the acceptable levels recommended by the national groundwater quality guidelines, imposing serious risks to the surrounding groundwater and human health. The pollution plumes of the contaminants migrate closer to the groundwater source governed by groundwater flow, suggesting the mine drainage may pose a risk to the groundwater quality of the Hongshixia water source.
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References
Akcil A, Koldas S (2006) Acid mine drainage (AMD): causes, treatment and case studies. J Clean Prod 14(12–13):1139–1145. doi:10.1016/j.jclepro.2004.09.006
Booth CJ (1986) Strata-movement concepts and the hydrogeological impact of underground coal mining. Groundwater 24(4):507–515
Britton LJ, Anderson CL, Goolsby DA, VanHaveren BP (1989) Summary of U.S. geological survey and U.S. bureau of land management national coal-hydrology program 1974-1984. USGS Prof paper 14(64):9–18
Cánovas CR, Hubbard CG, Olías M, Nieto JM, Black S, Coleman ML (2008) Hydrochemical variations and contaminant load in the Río Tinto (Spain) during flood events. J Hydrol 350(1–2):25–40. doi:10.1016/j.jhydrol2007.11.022
Caraballo MA, Macías F, Nieto JM, Ayora C (2016) Long term fluctuations of groundwater mine pollution in a sulfide mining district with dry Mediterranean climate: implications for water resources management and remediation. Sci Total Environ 539:427–435. doi:10.1016/j.scitotenv.201508156
Cheng J (2002) Reliability analysis of considering scale effect of dispersity. J Hydraul Eng 2002(02):90–94 (in Chinese)
Durand JF (2012) The impact of gold mining on the Witwatersrand on the rivers and karst system of Gauteng and North West Province, South Africa. J Afr Earth Sci 68:24–43. doi:10.1016/j.jafrearsci.2012.03.013
Esmaeili A, Moore F, Keshavarzi B (2014) Nitrate contamination in irrigation groundwater, Isfahan. Iran Environ Earth Sci 72:2511–2522. doi:10.1007/s12665-014-3159-z
Guo D, Zhang S (1994) Basic theory of fluids flow in porous media [M]. Shaanxi Science and Technology Press, Xi’an, pp 121–129 (in Chinese)
Guo D, Song Y, Qian H (1994) Groundwater dynamics. Shaanxi Science Technology Press, Xi’an, pp 88–95 (in Chinese)
Jami MS, Amosa MK, Alkhatib MFR, Jimat DN, Muyibi SA (2013) Boiler-feed and process water reclamation from biotreated palm oil mill effluent (bpome): a developmental review. Chem Biochem Eng Q 27(27):477–489
Jarvis AP, Moustafa M, Orme PHA, Younger PL (2006) Effective remediation of grossly polluted acidic, and metal-rich, spoil heap drainage using a novel, low-cost, permeable reactive barrier in Northumberland, UK. Environ Pollut 143:261–268. doi:10.1016/j.envpol.2005.11.028
Kim JJ, Kim SJ (2004) Seasonal factors controlling mineral precipitation in the acid mine drainage at Donghae coal mine, Korea. Sci Total Environ 325:181–191
Lambert DC, McDonough KM, Dzombak DA (2004) Long-term changes in quality of discharge water from abandoned underground coal mines in Uniontown Syncline, Fayette County, PA, USA. Water Res 38(2):277–288. doi:10.1016/j.watres.2003.09.017
Li P, Qian H, Wu J, Zhang Y, Zhang H (2013) Major ion chemistry of shallow groundwater in the Dongsheng coalfield, ordos basin. China Mine Water Environ 32(3):195–206. doi:10.1007/s10230-013-0234-8
Li P, Qian H, Wu J (2014a) Accelerate research on land creation. Nature 510:29–31. doi:10.1038/510029a
Li P, Qian H, Wu J (2014b) Origin and assessment of groundwater pollution and associated health risk: a case study in an industrial park, northwest China. Environ Geochem Health 36(4):693–712. doi:10.1007/s10653-013-9590-3
Li P, Wu J, Qian H (2014c) Hydrogeochemistry and quality assessment of shallow groundwater in the southern part of the yellow river alluvial plain (zhongwei section). China Earth Sci Res J 18(1):27–38. doi:10.15446/esrj.v18n1.34048
Li P, Qian H, Howard KWF, Wu J (2015) Building a new and sustainable ‘‘Silk Road economic belt’’. Environ Earth Sci 74:7267–7270. doi:10.1007/s12665-015-4739-2
Li P, Wu J, Qian H, Zhang Y, Yang N, Jing L, Yu P (2016a) Hydrogeochemical characterization of groundwater in and around a wastewater irrigated forest in the southeastern edge of the Tengger Desert. Expo Health, Northwest China. doi:10.1007/s12403-016-0193-y
Li P, Wu J, Qian H (2016b) Regulation of secondary soil salinization in semi-arid regions: a simulation research in the Nanshantaizi area along the Silk Road, northwest China. Environ Earth Sci 75(8):698. doi:10.1007/s12665-016-5381-3
Lines GC (1985) The ground-water system and possible effects of underground coal mining in the trail mountain area, central utah US. Geol Surv Water Supply Paper 22(59):5–30
Ministry of Land and Resources of the P.R. China (1993) Standard for geology and mineral resources industry (DZ/T 0064.2-1993). National standard for geological exploration of mineral resources. (in Chinese)
Ministry of Land and Resources of the P.R. China (2015) Standard for groundwater quality (DZ/T 0290–2015). National standard for geological exploration of mineral resources. (in Chinese)
Olías M, Nieto JM, Sarmiento AM, Cerón JC, Cánovas CR (2004) Seasonal water quality variations in a river affected by acid mine drainage: the Odiel River (South West Spain). Sci Total Environ 333:267–281. doi:10.1016/j.scitotenv.2004.05.012
Piper AM (1944) A graphic procedure in the geochemical interpretation of water-analyses. Trans Am Geophys Union 25(6):914–928. doi:10.1029/TR025i006p00914
Sacchi E, Acutis M, Bartoli M, Brenna S, Delconte CA, Laini A, Pennisi M (2013) Origin and fate of nitrates in groundwater from the central po plain: insights from isotopic investigations. Appl Geochem 34:164–180. doi:10.1016/j.apgeochem.2013.03.008
Stoner JD (1983) Probable hydrologic effects of subsurface mining. Groundw Monit Rev 5(1):51–57
Wu J, Sun Z (2015) Evaluation of shallow groundwater contamination and associated human health risk in an alluvial plain impacted by agricultural and industrial activities, mid-west China. Expo Health. doi:10.1007/s12403-015-0170-x
Wu J, Li P, Qian H, Duan Z, Zhang X (2014) Using correlation and multivariate statistical analysis to identify hydrogeochemical processes affecting the major ion chemistry of waters: case study in Laoheba phosphorite mine in Sichuan. China Arabian J Geosci 7(10):3973–3982. doi:10.1007/s12517-013-1057-4
Wu J, Li P, Qian H (2015) Hydrochemical characterization of drinking groundwater with special reference to fluoride in an arid area of China and the control of aquifer leakage on its concentrations. Environ Earth Sci 73(12):8575–8588. doi:10.1007/s12665-015-4018-2
Younger PL (1997) The longevity of mine water pollution: a basis for decision-making. Sci Total Environ 194–195:457–466. doi:10.1016/S0048-9697(96)05383-1
Younger PL (2000) Predicting temporal changes in total iron concentrations in groundwater flowing from abandoned deep mines: a first approximation. J Contam Hydrol 44(1):47–69. doi:10.1016/S0169-7722(00)00090-5
Younger PL, Henderson R (2014) Synergistic wetland treatment of sewage and mine water: pollutant removal performance of the first full-scale system. Water Res 55:74–82. doi:10.1016/j.watres.2014.02.024
Younger PL, Banwart SA, Hedin RS (2002) Mine water: hydrology, pollution Remediation. Kluwer Academic Publishers, Dordrecht
Acknowledgments
We acknowledge the 908 Team of Hydrogeology and Engineering Geology for providing the borehole log data and pumping test data. This study has been funded by the National Natural Science Foundation of China (Grants No. 41502234 and 41572236). We are grateful to the anonymous reviewers and the Editors for their useful comments, which have helped improve the quality of the earlier versions of this manuscript.
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Wang, W., Qiang, Y., Wang, Y. et al. Impacts of Yuyang Coal Mine on Groundwater Quality in Hongshixia Water Source, Northwest China: A Physicochemical and Modeling Research. Expo Health 8, 431–442 (2016). https://doi.org/10.1007/s12403-016-0223-9
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DOI: https://doi.org/10.1007/s12403-016-0223-9