2025年 04期

摘要(Abstract)：

为了治理陶枣盆地岩溶水被矿坑水串层污染，通过水化学分析确定当地岩溶水污染主要成分，建立陶枣盆地下水模型进行模拟、检验、参数反演，推断地下水污染通道，模拟预测增大矿坑水排放、注浆封堵串层通道、矿坑巷道填充方案保护岩溶水的效果。结果表明：陶枣盆地岩溶水主要污染成分为硫酸根离子，串层污染方式主要为断裂带串层、煤矿开采导致的底板破碎带等串层；注浆封堵、矿坑巷道填充分别是治理断裂带串层污染岩溶水、底板破碎带串层污染岩溶水的最佳方案。

关键词(KeyWords)：岩溶水;污染预测;数值模拟;串层污染;陶枣盆地

基金项目(Foundation): 国家自然科学基金项目(42272288)

作者(Author): 赵洋洋,邢立亭,曹杰,陈洪年,张飞,邢学韬

DOI: 10.13349/j.cnki.jdxbn.20240611.002

参考文献(References)：

[1] CHEN C,LI B,ZHU M T,et al.Multi-isotope identification of key hydrogeochemical processes and pollution pathways of groundwater in abandoned mining areas in Southwest China[J].Environmental Science and Pollution Research,2023,30(32):78198.

[2] ZHANG C C,LI X Q,HOU X W,et al.Characterization of drinking groundwater quality and assessment of human health risk in Xin’an spring basin,a typical mining and karst area of the northern China[J].Environmental Earth Sciences,2023,82(11):282.

[3] ZHANG M,HUANG C,NI J,et al.Global trends and future prospects of acid mine drainage research[J].Environmental Science and Pollution Research,2023,30(50):109233.

[4] YANG L,LIU L,LIU Y,et al.Hydrodynamic groundwater modeling and hydrochemical conceptualization of the closure mining area of the Wuma River Watershed of China[J].ACS Omega,2024,9(1):520.

[5] FENG H B,ZHOU J W,CHAI B,et al.Groundwater environmental risk assessment of abandoned coal mine in each phase of the mine life cycle:a case study of Hongshan Coal Mine,North China[J].Environmental Science and Pollution Research,2020,27(33):42001.

[6] LI H Y,ZHANG F W,DU X Q,et al.Identification of the pollution mechanisms and remediation strategies for abandoned wells in the karst areas of Northern China[J].Sustainability,2023,15(23):16458.

[7] 武强，李松营.闭坑矿山的正负生态环境效应与对策[J].煤炭学报，2018,43(1):21.

[8] 葛亮涛.中国煤田水文地质基本特征与规律[J].中国煤田地质，1996(增刊1):46.

[9] 艾雨露，陈宏坪，陈梦舫，等.全球主要产煤国煤矿AMD污染特征与治理技术[J].煤炭学报，2023,48(12):4521.

[10] 王红梅.榆神府矿区关闭矿井地下水环境演变研究[D].北京：煤炭科学研究总院，2022:37-39.

[11] 赵春红，梁永平，王志恒，等.山西省阳泉山底河流域煤矿“老窑水”动态特征、演化机理及对娘子关泉域的环境效应[J].中国地质，2023,50(5):1471.

[12] 张秋霞，周建伟，林尚华，等.淄博洪山、寨里煤矿区闭坑后地下水污染特征及成因分析[J].安全与环境工程，2015,22(6):23.

[13] 刁海忠，于桑，李洪亮，等.淄博洪山-寨里煤矿地下水串层污染治理区水化学和硫同位素特征[J].中国岩溶，2023,42(1):171.

[14] SUN W,ZHANG Q,LUAN Y Z,et al.A study of surface subsidence and coal pillar safety for strip mining in a deep mine[J].Environmental Earth Sciences,2018,77(17):627.

[15] LIU Z X,CUI B Q,LIANG Y B,et al.Study on foundation deformation of buildings in mining subsidence area and surface subsidence prediction[J].Geotechnical and Geological Engin-eering,2019,37(3):1755.

[16] BUI N T,KAWAMURA A,BUI D D,et al.Groundwater sustainability assessment framework:a demonstration of environmental sustainability index for Hanoi,Vietnam[J].Journal of Environmental Management,2019,241(1):479.

[17] PANDEY B,AGRAWAL M,SINGH S.Ecological risk assessment of soil contamination by trace elements around coal mining area[J].Journal of Soils and Sediments,2016,16(1):159.

[18] KLERK A D,OBERHOLSTER P,WYK J H,et al.The effect of rehabilitation measures on ecological infrastructure in response to acid mine drainage from coal mining[J].Ecological Engineering,2016,95:463.

[19] ADHIKARI K,MAL U.Evaluation of contamination of manganese in groundwater from overburden dumps of Lower Gondwana coal mines[J].Environmental Earth Sciences,2021,80(1):23.

[20] 胡艳春，冯园园，李婷婷，等.淄博煤田洪山、寨里闭坑矿山地下水串层污染预测与防治措施研究[J].地下水，2022,44(5):34.

[21] 王军涛.淄川煤矿矿坑排水对水质特征影响与串层污染防治研究[D] .济南：山东建筑大学，2012:44.

[22] CIAMPI P,ESPOSITO C,CASSIANI G,et al.A field-scale remediation of residual light non-aqueous phase liquid (LNAPL):chemical enhancers for pump and treat[J].Environmental Science and Pollution Research,2021,28(26):35286.

[23] YUAN F,ZHANG J,CHEN J,et al.In situ pumping-injection remediation of strong acid-high salt groundwater:displacement-neutralization mechanism and influence of pore blocking[J].Water,2022,14(17):2720.

[24] 孙亚军，徐智敏，李鑫，等.我国煤矿区矿井水污染问题及防控技术体系构建[J].煤田地质与勘探，2021,49(5):8.