煤矿地下水库技术原创试验平台体系研制及应用

TD74; 煤炭是我国主体能源,西部是我国煤炭主产区,矿井水保护利用是煤炭开发面临的重大技术难题.国家能源集团煤炭绿色开采技术研发团队经过 20多年持续技术攻关,首创了煤矿地下水库技术,在西部神东矿区推广应用,为矿区开发提供了 95%以上用水,确保了矿区可持续开发.为进一步丰富完善煤矿地下水库理论和技术体系,在西部煤炭主产区不同地质和工况条件下推广应用该技术,保障国家能源安全和水资源安全,研发团队构建了煤矿地下水库原创技术试验平台体系,包括煤炭开采地下水运移与保护综合智能试验平台、多煤层开采煤矿地下水库模拟试验平台、煤矿地下水库坝体结构试验平台、西部深部井工矿井筒施工模拟试验台、地下水库水岩耦...

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Published in	煤炭学报 Vol. 49; no. 1; pp. 100 - 113
Main Authors	顾大钊, 曹志国, 李井峰, 吴宝杨, 张勇, 蒋斌斌, 郭强, 王汉鹏, 武洋, 史小萌, 王路军, 杨毅, 查尔晟
Format	Journal Article
Language	Chinese
Published	国家能源投资集团有限责任公司,北京 100011 2024 北京低碳清洁能源研究院,北京 102211 煤炭开采水资源保护与利用全国重点实验室,北京 102211 国能神东煤炭集团有限责任公司,陕西榆林 719315%山东大学齐鲁交通学院,山东济南 250061
Subjects	impact test 地下水运移坝体结构 groundwater migration 煤矿地下水库冲击试验 dam structure 水岩耦合 underground coal mine reservoirs water-rock coupling
Online Access	Get full text
ISSN	0253-9993
DOI	10.13225/j.cnki.jccs.2023.0689

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Abstract	TD74; 煤炭是我国主体能源,西部是我国煤炭主产区,矿井水保护利用是煤炭开发面临的重大技术难题.国家能源集团煤炭绿色开采技术研发团队经过 20多年持续技术攻关,首创了煤矿地下水库技术,在西部神东矿区推广应用,为矿区开发提供了 95%以上用水,确保了矿区可持续开发.为进一步丰富完善煤矿地下水库理论和技术体系,在西部煤炭主产区不同地质和工况条件下推广应用该技术,保障国家能源安全和水资源安全,研发团队构建了煤矿地下水库原创技术试验平台体系,包括煤炭开采地下水运移与保护综合智能试验平台、多煤层开采煤矿地下水库模拟试验平台、煤矿地下水库坝体结构试验平台、西部深部井工矿井筒施工模拟试验台、地下水库水岩耦合机理试验、水处理工艺集成试验平台、煤矿地下水库冲击试验平台等,能够开展西部矿区不同煤层赋存条件下地下水运移规律、坝体结构参数优化、水库安全稳定性、水岩耦合作用机理、矿井水处理工艺参数优化、垮落岩体垮落冲击对坝体影响等研究,为煤矿地下水库建设、运行和安全提供理论支撑和技术验证.利用上述试验平台,开展了多煤层开采煤矿地下水库稳定性及渗流规律模拟、煤矿地下水库坝体结构安全、煤矿地下水库水岩耦合机理等多项试验研究,相关研究成果已应用于现场工程实践,确保了煤矿地下水库安全稳定运行.
AbstractList	TD74; 煤炭是我国主体能源,西部是我国煤炭主产区,矿井水保护利用是煤炭开发面临的重大技术难题.国家能源集团煤炭绿色开采技术研发团队经过 20多年持续技术攻关,首创了煤矿地下水库技术,在西部神东矿区推广应用,为矿区开发提供了 95%以上用水,确保了矿区可持续开发.为进一步丰富完善煤矿地下水库理论和技术体系,在西部煤炭主产区不同地质和工况条件下推广应用该技术,保障国家能源安全和水资源安全,研发团队构建了煤矿地下水库原创技术试验平台体系,包括煤炭开采地下水运移与保护综合智能试验平台、多煤层开采煤矿地下水库模拟试验平台、煤矿地下水库坝体结构试验平台、西部深部井工矿井筒施工模拟试验台、地下水库水岩耦合机理试验、水处理工艺集成试验平台、煤矿地下水库冲击试验平台等,能够开展西部矿区不同煤层赋存条件下地下水运移规律、坝体结构参数优化、水库安全稳定性、水岩耦合作用机理、矿井水处理工艺参数优化、垮落岩体垮落冲击对坝体影响等研究,为煤矿地下水库建设、运行和安全提供理论支撑和技术验证.利用上述试验平台,开展了多煤层开采煤矿地下水库稳定性及渗流规律模拟、煤矿地下水库坝体结构安全、煤矿地下水库水岩耦合机理等多项试验研究,相关研究成果已应用于现场工程实践,确保了煤矿地下水库安全稳定运行.
Abstract_FL	Coal is the main energy source in China,and the western region in China is the main coal production area.The protection and utilization of coal mine water is the major technical challenge in the coal mining.The coal green mining re-search team of China Energy Group has pioneered the technology of underground coal mine reservoirs,which has been widely implemented in the Shendong mining area in Western China,providing over 95%of water needed for mining and ensuring the sustainable development of the mining area.To further enrich and improve the theoretical and technical sys-tem of underground coal mine reservoirs,this technology has been promoted and applied under different geological and working conditions in the western coal mining areas to ensure national energy security and water resources protection.The research team has built the original technology experimental platform system for coal mine underground reservoirs,in-cluding the comprehensive intelligent experimental platform for underground water transport and protection,the physical modelling platform for coal mine underground reservoirs under multiple coal seams,the dam structure experimental plat-form for coal mine underground reservoirs,the simulation experimental platform for deep well construction in western areas,the water-rock coupling mechanism experimental platform for underground water reservoirs,the integrated water treatment process experimental platform,and the impact experimental platforms for coal mine underground reservoirs,etc.On these platforms,the researches can be carried out consisting of the transport law of underground water,the optimiza-tion of dam structure parameters,the safety and stability of reservoirs,water-rock coupling mechanism,the optimization of mine water treatment,and the impact of caving rock mass on the dam structure under different coal seam occurrence con-ditions in the western mining areas of China.These platform systems provide a theoretical support and technical verifica-tion for the construction,operation,and safety of coal mine underground reservoirs.By utilizing these experimental plat-forms,various experimental research studies have been conducted,including the stability and seepage of coal mine under-ground reservoirs under multiple coal seams,the structural safety of coal mine underground reservoirs dam,and the water-rock coupling mechanism of coal mine underground reservoirs.These research results have been applied in actual engin-eering practice to ensure the safe and stable operation of coal mine underground reservoirs.
Author	查尔晟李井峰顾大钊武洋史小萌张勇王汉鹏曹志国杨毅王路军蒋斌斌吴宝杨郭强
AuthorAffiliation	煤炭开采水资源保护与利用全国重点实验室,北京 102211;北京低碳清洁能源研究院,北京 102211;国家能源投资集团有限责任公司,北京 100011;国能神东煤炭集团有限责任公司,陕西榆林 719315%山东大学齐鲁交通学院,山东济南 250061
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Author_FL	JIANG Binbin WU Baoyang CAO Zhiguo SHI Xiaomeng LI Jingfeng YANG Yi GUO Qiang WANG Lujun GU Dazhao WU Yang ZHANG Yong WANG Hanpeng ZHA Ersheng
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