期刊文献+

金属地下矿山深部转产过程中的产能接续优化 被引量:2

Optimization of capacity continuity during the deep-area transition for an underground metal mine
下载PDF
导出
摘要 为了实现金属地下矿山开采由浅部转向深部过程中产能平稳接续,以三山岛金矿为研究对象,结合矿山多区段联合开采的复杂生产格局,综合考虑产能均衡、品位均衡与各项生产系统能力限制等约束,构建以多矿区资源综合开采价值最大为目标的产能接续规划优化模型,在Python和Gurobi环境下实现优化模型构建与解算.优化结果表明,通过对矿山深部转产过程中的产能接续进行规划优化,得到的最佳产能接续与生产任务分配方案可以在有效保证多矿区协同开采、产能均衡稳定的同时,提升矿山开采的综合经济效益. With the rapid depletion of shallow mineral resources, an increasing number of mines are stepping into deep mining to ensure resource continuity, which generally forms a coordinated production model that includes both existing shallow production systems and new deep projects. Given the complex production patterns of both multi-mining areas and multi-sections formed during the process of deep mining, how to achieve geological resource continuity, stable production capacity, balanced supply grade, and sustainable economic benefits are the key issue to be addressed in the mining scheme during the transition to deep-area. When an underground mine transitions to deep mining, it is necessary to steadily advance the production task and maintain the steady growth of metal quantity and economic benefit. Therefore, to maintain production continuity and stability, it is necessary to optimize the production plan for underground metal mines. Considering the situation of multi-section mining submontanely, the Sanshandao gold mine is used as a case study to investigate the complex production layout of multi-section mining simultaneously subjected to constraints of production capacity balance, grade requirements, and other production system capacities through in-depth analysis of the production capacity continuity in the process of mining transition to deep mineral resources. An optimization model is constructed aiming at maximizing the comprehensive resource exploitation value of multi-section mining. A mathematical planning model for the continuation and optimal allocation of production capacity during the transition period of deep mining is constructed with the optimization goal of maximizing the comprehensive exploitation return of resources from multiple mining areas, taking the constraints of overall capacity succession,balanced output grade, and capacity limits of each mining area into account. Following the solution of the Sanshandao gold mine’s production capacity, succession during the transition to deep-area is obtained. The model considers the coordination and succession of multiple mining areas and sections in terms of time and space, and it achieves a smooth production system transition from shallow to deep areas through accurate evaluation of existing operation conditions and optimal allocation of production factors, all while ensuring the production tasks and economic efficiency targets are met. The optimization model is programmed in Python, and it is solved using the Gurobi software. The results show that the best capacity continuation and production task allocation schemes are obtained to effectively ensure benefit improvement as well as production capacity balance and stability. The example application validates the scientific and efficacy of the optimization model, which can be used by other mines to optimize production plans when switching to deep mining.
作者 侯杰 李国清 修国林 胡乃联 强兴邦 HOU Jie;LI Guo-qing;XIU Guo-lin;HU Nai-lian;QIANG Xing-bang(School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China;Key Laboratory of High-Efficient Mining and Safety of Metal Mines,Ministry of Education,Beijing 100083,China;Shandong Gold Group Co.,Ltd,Jinan 250013,China)
出处 《工程科学学报》 EI CSCD 北大核心 2023年第5期693-700,共8页 Chinese Journal of Engineering
基金 国家自然科学基金资助项目(52074022) 中央高校基本科研业务费专项资金资助项目(FRF-TP-20-001A1)。
关键词 地下矿山 深部转产 产能接续 规划优化 数学模型 underground mine transition to deep-area connection of production capacity planning and optimization mathematical model
  • 相关文献

参考文献12

二级参考文献114

共引文献80

同被引文献24

引证文献2

二级引证文献2

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部