| 岩溶山区电解锰渣库地下水环境污染特征及其污染控制 |
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| 引用本文: | 王万金,楚敬龙,崔贺,郑明英.岩溶山区电解锰渣库地下水环境污染特征及其污染控制[J].矿冶,2023,32(4):110-118. |
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| 作者姓名: | 王万金 楚敬龙 崔贺 郑明英 |
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| 作者单位: | 贵州省地质矿产勘查开发局111地质大队,矿冶科技集团有限公司,中国水电基础局有限公司,贵州省地质矿产勘查开发局111地质大队 |
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| 基金项目: | 贵州省地勘基金研项目(黔自然资函[2021]244号) 贵州省水文地质志修编(项目编号MCHC-ZG20212206-1) |
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| 摘 要: | 我国西南某岩溶山区电解锰行业较为发达,电解锰产出的同时也产生了大量锰渣,锰渣主要采用填埋存储的方法进行处理,区内电解锰渣场有20余处。锰渣场多位于岩溶洼地区,地下水环境极脆弱,有11座锰渣库存在渗漏污染地下水的环境问题。针对该区域内某2个电解锰渣库渗漏,污染下游岩溶地下河出口的具体问题,以改善地下水环境、节约污水治理资金为目标。以水文地质单元为研究范围,重点研究地下水污染途径及水文地质条件,通过调查、采样分析、钻探、物探、连通试验、抽水试验等工作方法,查明了这2个锰渣渣库渗漏是地下河出口污染的主要原因,渣库高悬于地下水水位之上,渣体内污染物通过6种途径进入地下水;锰渣库位于地下水系统排泄区,库区范围及下游地下水已被污染,占地下河流域面积的8.33%;地下水系统的补给径流区全为岩溶洼地,地下水未受污染,存在3处地下水集中径流带。根据研究区地下水污染特征及水文地质条件,提出了“分区治理、清污分流”的源头防控治理思路。抽水试验结果表明,按照该治理方法实施治理后,被污染地下河出口水量总体可减少70%以上,节约污水治理资金300万元/年。
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| 关 键 词: | 电解锰渣库 地下水污染 清污分流 岩溶洼地 |
| 收稿时间: | 2023/6/11 0:00:00 |
| 修稿时间: | 2023/6/11 0:00:00 |
Research on Engineering Treatment Methods for Groundwater Environmental Pollution in Electrolytic Manganese Slag Storage in Karst Mountainous Areas |
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| WANG Wanjin,CHU Jinglong,CUI He and ZHENG Ming ying.Research on Engineering Treatment Methods for Groundwater Environmental Pollution in Electrolytic Manganese Slag Storage in Karst Mountainous Areas[J].Mining & Metallurgy,2023,32(4):110-118. |
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| Authors: | WANG Wanjin CHU Jinglong CUI He and ZHENG Ming ying |
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| Abstract: | Regarding the specific problem of leakage from two electrolytic manganese slag reservoirs in karst mountainous areas, which pollutes the downstream karst underground river outlet. On the basis of studying the mechanism of manganese slag storage polluting groundwater and conducting detailed hydrogeological investigations, a source prevention and control governance method of "zoning governance and sewage diversion" is proposed based on the characteristics of manganese slag storage located in the discharge area of the groundwater system, and the recharge and runoff area of the groundwater system being all karst depressions. According to pumping tests and theoretical analysis in key areas, it is estimated that after implementing the treatment project according to this treatment method, the overall water volume at the outlet of the polluted underground river can be reduced by 70%, saving 3 million yuan/year in sewage treatment funds. |
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| Keywords: | Electrolytic manganese slag storage Groundwater pollution Clean and sewage diversion karst depression |
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