采煤矿区绿色发展战略研究
Journal: Ecological Environment and Protection DOI: 10.12238/eep.v7i4.2045
Abstract
在煤矿开采地区,由于采矿活动引起的水、土环境污染是一个采煤沉陷区生态恢复最为关切的问题之一,因此如何治理和恢复矿区被污染的环境成为一大难题。基于此,本文探讨了我国采煤复垦沉陷区生态建设关键问题,并对加强生态文明建设以及促进矿区绿色发展进行了研究。
Keywords
煤矿;复垦区;生态修复;绿色发展
Full Text
PDF - Viewed/Downloaded: 0 TimesReferences
[1] Koner,R.;Chakravarty,D.Characterisation of Overburden Dump Materials: A Case Study from the Wardha Valley Coal Field.Bull.Eng.Geol.Environ.2016,75,1311-323.
[2] Zhao Xuguang.The Dilemma of "Sports" Environmental Governance and the Transformation of the Rule of Law[J].Shan dong Social Sciences2017,264(8):169-174.
[3] Zhou Hongchun. New Period, New Height and New Task: Reflections on the Construction of Eological Civilization [J].Environmental Protection,2017(22):16-19.
[4] Mei Fengqiao.On the government of Ecological Civiliza tion and Its Construction[J].Chinese Journal of Population Resources and Environment,2016,26(3):1-8.
[5] Lei S G, Bian Z F. Research progress on the environment impacts from underground coal mining in arid western area of China.Acta Ecol Sin,2014,34(11):2837
[6] Zhou L N, Wang Y, Zhang X, et al. Complete coverage path planning of mobile robot on abandoned mine land.Chin J Eng, 2020,42(9):1220
[7] Land Rehabilitation Society of Southern Africa.Land Rehabilitation Guidelines for Surface Coal Mines;Land Rehab ilitation Society of Southern Africa, Coaltech, Minerals Council of South Africa; Coaltech Research Association: Johan nesburg, South Africa,2018.
[8] Australian Government.Mines Rehabilitation—Leading Practice Sustainable Development Program. for the Mining Industry;Department of Industry, Science, Energy and Resourc es;Australian Government:Canberra,Australia, September 2016;
[9] Australian Government.Mines Closure and Completion—Le ading Practice Sustainable Development Program. for the Mining Industry; Department of Industry, Science, Energy and Resources; Australian Government:Canberra, Australia, October 2006.
[10] 兵兵汪.废弃矿区生态修复治理技术现状与发展[J].智能城市应用,2021,4(5):68-70.
[11] 蔡发飞.矿山地质灾害治理及生态环境修复探讨[J].工程学研究与实用,2022,3(3):118-120.
[12] Wen Song, Ruiping Xu, Xinju Li, Xiangyu Min, Jinning Zhang, Huizhong Zhang, Xiao Hu, Junying Li,Soil reconstruction and heavy metal pollution risk in reclaimed cultivated land with coal gangue filling in mining areas,CATENA,Volume 228,2023
[13] Tao Du,Dongmei Wang,Yujie Bai,Zezhou Zhang,Optimizi ng the formulation of coal gangue planting substrate using wastes:The sustainability of coal mine ecological restoration, Ecological Engineering,Volume143,2020.
[14] Lei,L.Q.; Song, C.A.; Xie, X.L.; Li, Y.H.; Wang, F. Acid Mine Drainage and Heavy Metal Contamination in Groundwater of Metal Sulfide Mine at Arid Territory (BS Mine, Western Austra lia). Trans. Nonferrous Met. Soc.China 2010,20,1488-493.
[15] Turan,V.Calcite in Combination with Olive Pulp Bioch ar Reduces Ni Mobility in Soil and Its Distribution in Chili Plant.Int.J.Phytoremed.2022,24,166-76.
[16] Turan, V. Arbuscular Mycorrhizal Fungi and Pistachio Husk Biochar Combination Reduces Ni Distribution in Mungbean Plant and Improves Plant Antioxidants and Soil Enzymes. Physiol.Pantarum 2021,173,418-29.
[17] Qu, J.; Zhang, B.; Tong, H.; Liu, Y.; Wang, S.; Wei, S.; Wang, L.; Wang, Y.; Zhang, Y. High-Efficiency Decontamination of Pb (II) and Tetracycline in Contaminated Water Using Ball-Milled Magnetic Bone Derived Biochar.J.Clean.Prod.2023,385,135683.
[18] He,X.;Nkoh,J.N.;Shi,R.Y.;Xu,R.k.Application of Chitosanand Alginate-Modified Biochars in Promoting the Resistance to Paddy Soil Acidification and Immobilization of Soil Cadm ium.Environ.Pollut.2022,313,120175.
[19] Lorestani,B.;Cheraghi,M.;Yousefi, N. Phytoremediation potential of native plants growing on a heavy metals contam inated soil of copper mine in Iran.World Acad. Sci. Eng. Techn ol.2011,77,377-82.
[20] Saxena,G.;Purchase,D.;Mulla,S.I.;Saratale,G.D.;Bharagava, R.N. Phytoremediation of Heavy Metal-Contaminated Sites: Eco-environmental Concerns, Field Studies, Sustainability Issues, and Future Prospects.Rev. Environ. Contam. and Toxicol.Vol.2012019,249, 71-31.
[21] Kanwar,V.S.;Sharma,A.;Srivastav,A.L.;Rani,L.Phytoremediation of Toxic Metals Present in Soil and Water Environment: A Critical Review.Environ.Sci.Pollut.Res.2020,27,44835-4860.
[2] Zhao Xuguang.The Dilemma of "Sports" Environmental Governance and the Transformation of the Rule of Law[J].Shan dong Social Sciences2017,264(8):169-174.
[3] Zhou Hongchun. New Period, New Height and New Task: Reflections on the Construction of Eological Civilization [J].Environmental Protection,2017(22):16-19.
[4] Mei Fengqiao.On the government of Ecological Civiliza tion and Its Construction[J].Chinese Journal of Population Resources and Environment,2016,26(3):1-8.
[5] Lei S G, Bian Z F. Research progress on the environment impacts from underground coal mining in arid western area of China.Acta Ecol Sin,2014,34(11):2837
[6] Zhou L N, Wang Y, Zhang X, et al. Complete coverage path planning of mobile robot on abandoned mine land.Chin J Eng, 2020,42(9):1220
[7] Land Rehabilitation Society of Southern Africa.Land Rehabilitation Guidelines for Surface Coal Mines;Land Rehab ilitation Society of Southern Africa, Coaltech, Minerals Council of South Africa; Coaltech Research Association: Johan nesburg, South Africa,2018.
[8] Australian Government.Mines Rehabilitation—Leading Practice Sustainable Development Program. for the Mining Industry;Department of Industry, Science, Energy and Resourc es;Australian Government:Canberra,Australia, September 2016;
[9] Australian Government.Mines Closure and Completion—Le ading Practice Sustainable Development Program. for the Mining Industry; Department of Industry, Science, Energy and Resources; Australian Government:Canberra, Australia, October 2006.
[10] 兵兵汪.废弃矿区生态修复治理技术现状与发展[J].智能城市应用,2021,4(5):68-70.
[11] 蔡发飞.矿山地质灾害治理及生态环境修复探讨[J].工程学研究与实用,2022,3(3):118-120.
[12] Wen Song, Ruiping Xu, Xinju Li, Xiangyu Min, Jinning Zhang, Huizhong Zhang, Xiao Hu, Junying Li,Soil reconstruction and heavy metal pollution risk in reclaimed cultivated land with coal gangue filling in mining areas,CATENA,Volume 228,2023
[13] Tao Du,Dongmei Wang,Yujie Bai,Zezhou Zhang,Optimizi ng the formulation of coal gangue planting substrate using wastes:The sustainability of coal mine ecological restoration, Ecological Engineering,Volume143,2020.
[14] Lei,L.Q.; Song, C.A.; Xie, X.L.; Li, Y.H.; Wang, F. Acid Mine Drainage and Heavy Metal Contamination in Groundwater of Metal Sulfide Mine at Arid Territory (BS Mine, Western Austra lia). Trans. Nonferrous Met. Soc.China 2010,20,1488-493.
[15] Turan,V.Calcite in Combination with Olive Pulp Bioch ar Reduces Ni Mobility in Soil and Its Distribution in Chili Plant.Int.J.Phytoremed.2022,24,166-76.
[16] Turan, V. Arbuscular Mycorrhizal Fungi and Pistachio Husk Biochar Combination Reduces Ni Distribution in Mungbean Plant and Improves Plant Antioxidants and Soil Enzymes. Physiol.Pantarum 2021,173,418-29.
[17] Qu, J.; Zhang, B.; Tong, H.; Liu, Y.; Wang, S.; Wei, S.; Wang, L.; Wang, Y.; Zhang, Y. High-Efficiency Decontamination of Pb (II) and Tetracycline in Contaminated Water Using Ball-Milled Magnetic Bone Derived Biochar.J.Clean.Prod.2023,385,135683.
[18] He,X.;Nkoh,J.N.;Shi,R.Y.;Xu,R.k.Application of Chitosanand Alginate-Modified Biochars in Promoting the Resistance to Paddy Soil Acidification and Immobilization of Soil Cadm ium.Environ.Pollut.2022,313,120175.
[19] Lorestani,B.;Cheraghi,M.;Yousefi, N. Phytoremediation potential of native plants growing on a heavy metals contam inated soil of copper mine in Iran.World Acad. Sci. Eng. Techn ol.2011,77,377-82.
[20] Saxena,G.;Purchase,D.;Mulla,S.I.;Saratale,G.D.;Bharagava, R.N. Phytoremediation of Heavy Metal-Contaminated Sites: Eco-environmental Concerns, Field Studies, Sustainability Issues, and Future Prospects.Rev. Environ. Contam. and Toxicol.Vol.2012019,249, 71-31.
[21] Kanwar,V.S.;Sharma,A.;Srivastav,A.L.;Rani,L.Phytoremediation of Toxic Metals Present in Soil and Water Environment: A Critical Review.Environ.Sci.Pollut.Res.2020,27,44835-4860.
Copyright © 2024 冯英杰, 程方志远, 李牧, 杨多江, 蒋梦雨, 刘少敏
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License