Simultaneous stochastic optimisation of mining complexes: Integrating progressive reclamation and waste management with contextual bandits.

Autor: Levinson, Zachary1 (AUTHOR) zachary.levinson@mail.mcgill.ca, Dimitrakopoulos, Roussos1 (AUTHOR)
Předmět:
Zdroj: International Journal of Mining, Reclamation & Environment. Oct2024, Vol. 38 Issue 9, p701-721. 21p.
Abstrakt: Managing environmental performance of waste dump facilities in mining complexes is an integral part of long-term production planning. Sustainable long-term production scheduling solutions are desired to mitigate risk and return the environment to a productive post-mining state. A simultaneous stochastic optimisation framework for long-term production scheduling in mining complexes is developed that integrates waste management and progressive reclamation. The waste dump placement schedule is jointly optimised with the extraction sequence, destination policy, and stockpiling decisions in a single stochastic mathematical programming framework. This includes the timing of progressive reclamation activities in parallel with production to enhance waste dump rehabilitation. Uncertainty related to the production of acid rock drainage is quantified by simulating geochemical properties of waste and managing the blending of uncertain waste properties within the optimisation framework. With respect to the framework for simultaneous stochastic optimisation, contextual bandits are explored to improve the metaheuristic solution approach and solve the corresponding large-scale optimisation model. The framework is tested in a multi-mine copper-gold mining complex leading to improved environmental performance. Risk of acid rock drainage is decreased by 52.5% in the waste dump facilities. Reclamation planning activities for meeting environmental requirements are scheduled prior to closure. The solution approach more effectively improves the objective function with contextual bandits leading to a 24% improvement in the study presented. [ABSTRACT FROM AUTHOR]
Databáze: GreenFILE