云南富宁县某冶炼项目所处背斜构造区地下水污染风险分析
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摘要
西南基岩山区冶炼项目建设对地下水环境影响评价及分析预测对这些地区地下水环境保护及管理至关重要,而在冶炼类项目选址过程中,地下水成为了项目选址合理性的关键因素。因此,本文以云南文山富宁某冶炼项目为例,通过详细开展水文地质调查及勘察,在查明拟建项目区所属水文地质单元及水文地质条件特征基础上开展地下水污染风险分析及预测。研究结果表明,处于特殊构造部位的场地对地下水风险较小。
The evaluation and analysis of the impact of the smelting project construction on the groundwater environment in the southwest bedrock mountain area is of vital importance for the groundwater environment protection and management in these areas.However, the groundwater has become a key factor of the reasonableness of the site selection of the smelting project. Therefore, a hydropower and aluminum smelting project in Funing country of Wenshan city, Yunnan province is taken as an example in this study. The detailed hydrogeological investigation and investigation are carried out. The groundwater environmental impact analysis and prediction are carried out based on the identity of the hydrogeological units and hydrogeological conditions of the proposed project area. The results show that the proposed project has very limited impact on the groundwater environment due to the site located in a special structure.
The evaluation and analysis of the impact of the smelting project construction on the groundwater environment in the southwest bedrock mountain area is of vital importance for the groundwater environment protection and management in these areas.However, the groundwater has become a key factor of the reasonableness of the site selection of the smelting project. Therefore, a hydropower and aluminum smelting project in Funing country of Wenshan city, Yunnan province is taken as an example in this study. The detailed hydrogeological investigation and investigation are carried out. The groundwater environmental impact analysis and prediction are carried out based on the identity of the hydrogeological units and hydrogeological conditions of the proposed project area. The results show that the proposed project has very limited impact on the groundwater environment due to the site located in a special structure.
引文
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[16]崔亚丰,何江涛,王曼丽,等.岩溶地区地下水污染风险评价方法探究--以地苏地下河系流域为例[J].中国岩溶,2016(04):372-383.
[2]韩冰,何江涛,陈鸿汉,等.地下水有机污染人体健康风险评价初探[J].地学前缘,2006(01):224-229.
[3]于勇,翟远征,郭永丽,等.基于不确定性的地下水污染风险评价研究进展[J].水文地质工程地质,2013(01):115-123.
[4]张博,李国秀,程品,等.基于随机理论的地下水环境风险评价[J].水科学进展,2016(01):100-106.
[5]中华人民共和国环保部.环境影响评价技术导则地下水环境.中华人民共和国环保部,2016.
[6]de Barros FPJ,Bellin A,Cvetkovic V,et al.Aquifer heterogeneity controls on adverse human health effects and the concept of the hazard attenuation factor[J].Water Resources Research,2016,52(8):5911-5922.
[7]Erdal D,Cirpka OA.Joint inference of groundwaterrecharge and hydraulic-conductivity fields from head data using the ensemble Kalman filter[J].Hydrology and Earth System Sciences,2016,20(1):555-569.
[8]Wang YY,Huang GH,Wang S,et al.A risk-based interactive multi-stage stochastic programming approach for water resources planning under dual uncertainties[J].Advances in Water Resources 2016,94:217-230.
[9]黄海波,高扬,曹杰君,等.都市农业村域地下水非点源氮污染及其风险评估[J].水土保持学报,2010(03):56-59,70.
[10]张加双,杨悦锁,杜新强,等.石油污染场地地下水污染健康风险评估[J].安徽农业科学,2010(36):20887-20890.
[11]何仔颖,吴超.尾矿库地下水污染风险评价体系研究[J].安全与环境学报,2011(04):121-125.
[12]李春平,吴骏,罗飞,等.某有机化工污染场地土壤与地下水风险评估[J].土壤,2013(05):933-939.
[13]李军,裴昭君,韩国睿,等.危险废物填埋场地下水污染风险评价的研究现状[J].环境科学导刊,2013(06):74-77.
[14]阳艾利.基于模拟的地下水石油污染风险评估与修复过程优化技术研究[D]:华北电力大学,2013.
[15]郭高轩,李宇,许亮,等.北京平原区第四系地下水污染风险评价[J].环境科学,2014(02):562-568.
[16]崔亚丰,何江涛,王曼丽,等.岩溶地区地下水污染风险评价方法探究--以地苏地下河系流域为例[J].中国岩溶,2016(04):372-383.