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露井联采矿区地质环境耦合损伤效应与生态协同修复技术体系构建

Coupling damage effects on the geological environment and development of an ecological synergistic restoration technology system for combined surface and underground mining area

  • 摘要: 露井联采在提升资源回收率与经济效益的同时,也因露天与井工开采的时空交互作用,产生“1+1>2”的复杂耦合损伤效应,严重威胁矿区的安全与生态稳定。系统分析了露井联采在开采工艺、地质影响和环境效应方面的特殊性,并从力学、水文与土地资源3个维度,揭示了其耦合损伤机制,具体包括:露天与井工采动应力叠加形成的“双向应力干扰带”、地下水位的“立体式”联动下降,以及地表沉陷与露天剥离协同导致的土地损毁程度加剧等现象。针对上述问题,构建了包含三大核心原则、三条协同思路和八项关键技术的生态协同修复技术体系。该体系强调基于量化损伤评估制订修复策略,倡导“工程—生物—循环”多技术融合,具体涵盖了边坡应力—变形协同控制、水系统一体化修复与循环利用、土地功能协同再生等核心技术。最后指出当前在耦合机制认知深度和修复技术长效性方面存在的不足,并提出未来应加强多因素耦合建模、研发低成本、高效率的修复技术与材料、构建生态评价指标体系,以推动露井联采矿区实现资源开发与生态环境协调、可持续发展。

     

    Abstract: While improving resource recovery rate and economic benefits, combined surface and underground mining also triggers the complex coupling damage effect of "1+1>2" due to the space-time interaction between open-pit and underground mining, which seriously threatens the safety and ecology of the mining area. The research systematically analyzes the particularity of combined surface and underground mining in mining technology, geological influence and environmental effect, and reveals its coupling damage mechanism from three dimensions of mechanics, hydrology and land resources, including the "two-way stress interference zone" formed by the superposition of open-pit and underground mining stress, the "three-dimensional" linkage decline of groundwater level, and the aggravation of land damage caused by the synergy of surface subsidence and open-pit stripping. In view of the above problems, this study constructs an ecological collaborative restoration technology system including three core principles, three collaborative ideas and eight key technologies. The system emphasizes the development of restoration strategies based on quantitative damage assessment, and advocates the integration of "engineering-biological-recycling" multi-technology, which specifically covers the core technologies such as collaborative control of slope stress-deformation, integrated restoration and recycling of water systems, and collaborative regeneration of land functions. Finally, the current deficiencies in the cognitive depth of coupling mechanism and the long-term effectiveness of restoration technology are pointed out, and it is proposed that in the future, multi-factor coupling modeling should be deepened, low-cost and high-efficiency repair technologies should be developed, and an ecological evaluation index system should be constructed to promote the coordinated and sustainable development of resource development and ecological environment in combined surface and underground mining areas.

     

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