Abstract
To effectively protect shallow groundwater and to evaluate the environmental impact of groundwater, we set up a monitoring network of 30 monitoring wells and collected 11 water samples from the wells during the rainy and dry seasons. Hydrochemical characteristics of the shallow groundwater were identified with the Piper and Gibbs diagrams. Groundwater quality was assessed with the single standard index method and the entropy-weighted water quality index. Finally, we used a numerical simulation of the impact of the power plant operation on the groundwater environment. The average abundance of the major ions in groundwater from the dry to the wet season occurred in the following orders: Ca2+ > Na+ > Mg2+ > K+ for cations and HCO3− > SO42− > Cl− for anions. The shallow groundwater usually has elevated hardness and alkalinity values comparison with the standard values. The dominant hydrochemical facies of the groundwater is the HCO3–Ca type. Rock weathering is likely to be the dominant process that controls the groundwater chemical composition. Groundwater in the study area is suitable for drinking under ordinary conditions, according to the single standard index method and the entropy-weighted water quality index. However, the groundwater quality has been influenced by anthropogenic activities (including near the west Ash Yard and Huangji Sunaba). Numerical modeling shows that leakage during abnormal operating conditions is of limited extent within the boundary of the simulated area and does not enter into the Yangtze River. Overall, it is necessary to carry out effective anti-seepage and pollution control measures to ensure that shallow groundwater is not contaminated.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahada CPS, Suthar S (2017) Hydrochemistry of groundwater in North Rajasthan, India: chemical and multivariate analysis. Environ Earth Sci 76(5):203
Amiri V, Rezaei M, Sohrabi N (2014) Groundwater quality assessment using entropy weighted water quality index (EWQI) in Lenjanat, Iran. Environ Earth Sci 72(9):3479–3490
Bureau of Quality and Technical Supervison of China (1994) National Standard of the People’s Republic of China: Quality Standard for Groundwater, GB/T 14848-93 (in Chinese)
Chanchal, Hussain A (2015) Groundwater quality assessment around ash pond of Parichha thermal power plant, Jhansi, India. Asian J Water Environ Pollut 12(3):83–88
Garcia MG, Hidalgo MD, Blesa MA (2001) Geochemistry of groundwater in the alluvial plain of Tucuman province, Argentina. Hydrogeol J 9(6):597–610
Gibbs RJ (1970) Mechanisms controlling world water chemistry. Science 170:1088–1090
Gohari A, Eslamian S, Mirchi A, Abedi-Koupaei J, Bavani AM, Madani K (2013) Water transfer as a solution to water shortage: a fix that can backfire. J Hydrol 491(1):23–39
Güler C, Kurt MA, Alpaslan M, Akbulut C (2012) Assessment of the impact of anthropogenic activities on the groundwater hydrology and chemistry in Tarsus coastal plain (Mersin, SE Turkey) using fuzzy clustering, multivariate statistics and GIS techniques. J Hydrol 414(3):435–451
Hayat E, Baba A (2017) Quality of groundwater resources in Afghanistan. Environ Monit Assess 189(7):318
He BY, Xu GL (2000) The problems in use of water resource of Hubei Province and its strategic countermeasures. Resour Environ Yangtze Basin 9:207–211 (in Chinese)
Islam ARMT, Ahmed N, Bodrud-Doza M, Chu RH (2017) Characterizing groundwater quality ranks for drinking purposes in Sylhet district, Bangladesh, using entropy method, spatial autocorrelation index, and geostatistics. Environ Sci Pollut Res 24(34):26350–26374
Kamrani S, Rezaei M, Amiri V, Saberinasr A (2016) Investigating the efficiency of information entropy and fuzzy theories to classification of groundwater samples for drinking purposes: Lenjanat Plain, Central Iran. Environ Earth Sci 75(20):1370
Karatzas GP (2017) Developments on modeling of groundwater flow and contaminant transport. Water Resour Manage 31(10):3235–3244
Kim GB (2015) Optimal distribution of groundwater monitoring wells near the river barrages of the 4MRRP using a numerical model and topographic analysis. Environ Earth Sci 73(9):5497–5511
Lap BQ, Mori K, Inoue E (2007) A one-dimensional model for water quality simulation in medium- and small-sized rivers. Paddy Water Environ 5(1):5–13
Li PY, Wu JH, Qian H (2010) Groundwater quality assessment based on entropy weighted osculating value method. Int J Environ Sci 27(3):31–34
Li PY, Wu JH, Qian H (2013) Assessment of groundwater quality for irrigation purpose and identification of hydrogeochemical evolution mechanisms in Pengyang County, China. Environ Earth Sci 69(7):2211–2225
Li PY, Qian H, Wu JH, Chen J, Zhang Y, Zhang H (2014) Occurrence and hydrogeochemistry of fluoride in alluvial aquifer of Weihe River, China. Environ Earth Sci 71(7):3133–3145
Li PY, Wu JH, Qian H, Zhang Y, Yang N, Jing L (2016a) Hydrogeochemical characterization of groundwater in and around a wastewater irrigated forest in the Southeastern Edge of the Tengger Desert, Northwest China. Exposure Health 8(3):331–348
Li J, Yang Y, Huan H, Li M, Xi B, Lv N (2016b) Method for screening prevention and control measures and technologies based on groundwater pollution intensity assessment. Sci Total Environ 551–552:143–154
Li Z, Li CH, Wang X, Peng C, Cai Y, Huang W (2018) A hybrid system dynamics and optimization approach for supporting sustainable water resources planning in Zhengzhou City, China. J Hydrol 556:50–60
Liu Y, Wu XF (2008) Numerical methods comparison in simulating contaminants movement in groundwater. Chin J Environ Eng 2:229–234 (in Chinese)
Marghada D, Malpe DB, Zade AB (2012) Major ion chemistry of shallow groundwater of a fast growing city of Central India. Environ Monit Asses 184(4):2405–2418
Murkute YA (2014) Hydrogeochemical characterization and quality assessment of groundwater around Umrer coal mine area Nagpur District, Maharashtra, India. Environ Earth Sci 72(10):4059–4073
Peng C, He JT, Wang ML, Zhang ZG, Wang L (2017) Identifying and assessing human activity impacts on groundwater quality through hydrogeochemical anomalies and NO3 –, NH4 +, and COD contamination: a case study of the liujiang river basin, Hebei province, P.R. China. Environ Sci Pollut Res 2:1–18
Qian C, Wu X, Mu WP, Fu RZ, Zhu G, Wang ZR, Wang DD (2016) Hydrogeochemical characterization and suitability assessment of groundwater in an agro-psatoral area, Ordos Basin, NW China. Environ Earth Sci 75(20):1356
Shao DG, Wang ZM, Wang B, Luo WW (2016) A water quality model with three dimensional variational data assimilation for contaminant transport. Water Resour Manage 30(13):4501–4512
Su H, Kang WD, Xu YJ, Wang JD (2017) Assessment of groundwater quality and health risk in the oil and gas field of Dingbian County, Northwest China. Expo Health 9(4):227–242
Vandenbohede A, Hinsby K, Courtens C, Lebbe L (2011) Flow and transport model of a polder area in the Belgian coastal plain: example of data integration. Hydrogeol J 19(8):1599–1615
Varnosfaderany MN, Mirghaffary N, Ebrahimi E, Soffianian A (2009) Water quality assessment in an arid region using a water quality index. Water Sci Technol 60(9):2319–2327
Venkataraman K, Tummuri S, Medina A, Perry J (2016) 21st century drought outlook for major climate divisions of texas based on cmip5 multimodel ensemble: implications for water resource management. J Hydrol 534:300–316
Weng BH, Chen GL, Xiang QG (2003) Evaluation method for influence of gas-field water on shallow groundwater. Nat Gas Ind 23:153–156 (in Chinese)
Winton RS, Moorman M, Richardson CJ (2016) Waterfowl impoundments as sources of nitrogen pollution. Water Air Soil Pollut 227(10):390
Wu Z, Fu XD, Wang GQ (2015) Concentration distribution of contaminant transport in wetland flows. J Hydro 525:335–344
Wu C, Wu X, Qian C (2017) Pollutants of gas field development effect on groundwater environment in Hangjin Banner. J China Coal Society 12:3262–3269 (in Chinese)
Xiao J, Jin ZD, Wang J (2014) Assessment of the hydrogeochemical and groundwater quality of the Tarim River Basin in an extreme arid region, NW China. Environ Manage 53(1):135–146
Yan BW, Chen L (2013) Coincidence probability of precipitation for the middle route of south-to-north water transfer project in China. J Hydro 499(9):19–26
Zeng L, Zhao YJ, Chen B, Ji P, Wu YH, Feng L (2014) Longitudinal spread of bicomponent contaminant in wetland flow dominated by bank-wall effect. J Hydro 509(4):179–509
Zhang XY, Xin BD, Liu WC, Guo GX, Lu HY, Ji ZQ (2011) Comparative analysis on three evaluation methods for groundwater quality assessment. J Water Resour Water Eng 22:113–118 (in Chinese)
Zhang XH, Wu YY, Gu BJ (2015) Urban rivers as hotspots of regional nitrogen pollution. Environ Pollut 205:139–144
Acknowledgements
This study was supported by a project supported by the Ministry of Land and Resources of China (201511056-3), the National Natural Science Foundation of China (no. 41572227), and a project supported by the Department of Land and Resources of Anhui Province (2016-k-10).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Wu, C., Wu, X., Zhu, G. et al. Influence of a power plant in Ezhou City on the groundwater environment in the nearby area. Environ Earth Sci 77, 503 (2018). https://doi.org/10.1007/s12665-018-7674-1
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s12665-018-7674-1