煤炭装卸设备堆场规划和机械调度的有效启发式算法

Samer Hanoun, Burhan Khan, Michael Johnstone, S. Nahavandi, D. Creighton
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引用次数: 18

摘要

煤炭处理是一个复杂的过程,涉及不同的相关和高度依赖的操作,如选择适当的产品类型,计划库存,安排堆垛和回收活动以及管理火车负载。手动规划这些操作非常耗时,并且可能导致未优化的计划,因为可能没有适当考虑决策的未来影响。研究了多目标冲突的连续输煤作业调度问题。由于问题本质上是np困难的,提出了一种有效的启发式方法来规划库存和调度资源,以最大限度地减少生产延迟和库存中的煤龄。描述了一个煤矿堆场作业模型,并将其表述为一个双目标优化问题。在不同的实际数据场景中验证了算法的有效性。计算结果表明,求解算法是有效的,目标冲突对煤的吞吐量有较大影响。同时,该模型和提出的启发式方法可以作为一个决策支持系统,为库存计划者探索替代决策的影响,如平衡库存的年龄和数量,以及最小化由于堆垛机和取料机运动引起的冲突。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An effective heuristic for stockyard planning and machinery scheduling at a coal handling facility
Coal handling is a complex process involving different correlated and highly dependent operations such as selecting appropriate product types, planning stockpiles, scheduling stacking and reclaiming activities and managing train loads. Planning these operations manually is time consuming and can result in non-optimized schedules as future impact of decisions may not be appropriately considered. This paper addresses the operational scheduling of the continuous coal handling problem with multiple conflicting objectives. As the problem is NP-hard in nature, an effective heuristic is presented for planning stockpiles and scheduling resources to minimize delays in production and the coal age in the stockyard. A model of stockyard operations within a coal mine is described and the problem is formulated as a Bi-Objective Optimization Problem (BOOP). The algorithm efficacy is demonstrated on different real-life data scenarios. Computational results show that the solution algorithm is effective and the coal throughput is substantially impacted by the conflicting objectives. Together, the model and the proposed heuristic, can act as a decision support system for the stockyard planner to explore the effects of alternative decisions, such as balancing age and volume of stockpiles, and minimizing conflicts due to stacker and reclaimer movements.
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