Rescheduling Plan Optimization of Underground Mine Haulage Equipment Based on Random Breakdown Simulation

Li, Ning; Feng, Shuzhao; Tao, Ling; Ye, Haiwang; Wang, Qizhou; Wang, Liguan; Jia, Mingtao

doi:10.20944/preprints202201.0402.v1

2022

DOI: 10.20944/preprints202201.0402.v1

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Rescheduling Plan Optimization of Underground Mine Haulage Equipment Based on Random Breakdown Simulation

Ning Li¹,

Shuzhao Feng²,

Ling Tao³

et al.

Abstract: Due to production space and operating environment requirements, mine production equipment often breaks down, which seriously affects the mine’s production schedule. To ensure the smooth completion of the haulage operation plan under abnormal conditions, a model of the haulage equipment rescheduling plan based on the random simulation of equipment breakdowns is established in this paper. The model aims to accomplish both the maximum completion rate of the original mining plan and the minimum fluctuati… Show more

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Cited by 4 publications

References 11 publications

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Research on the Application of Intelligent Diagnosis of Major Equipment Failures in Coal Mines

Zhang,

Weng,

et al. 2024

Applied Mathematics and Nonlinear Sciences

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Currently, the implementation of a coal mine production safety monitoring system, capable of real-time monitoring of the safety condition of large coal mine equipment and timely dispatch management, is crucial for the efficient and safe operation of coal mine enterprises. This paper designs the coal mine major equipment failure process based on the rolling bearing’s vibration mechanism, analyzes the major equipment’s failure signal using both time domain and frequency domain analysis methods, and employs the intelligent fuzzy control method to identify the major equipment failure. We have designed and practically applied a real-time, multi-threaded, and comprehensive fault diagnosis and prediction system for coal mine major equipment, combining information from coal mine safety, production, and operation. The results show that the normal state’s time-domain amplitude approximates (-0.2, 0.2), and the time-domain waveforms all display periodic shock signals when the bearing sustains damage. The faulty vibration amplitude of the inner ring is within 0.08 ms 2 and the faulty vibration amplitude of the outer ring is within 0.44 ms 2, and the diagnostic accuracy using the method of this paper reaches 97.2%. This study demonstrates the effectiveness of remote monitoring and fault analysis of major equipment in coal mines, which effectively improves the equipment start-up rate and ensures coal mine production safety.

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Research on the Application of Intelligent Diagnosis of Major Equipment Failures in Coal Mines

Zhang,

Weng,

et al. 2024

Applied Mathematics and Nonlinear Sciences

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The Parallel Machine Scheduling Problem with Different Speeds and Release Times in the Ore Hauling Operation

Tarazona-Torres,

Amaya,

Paipilla

et al. 2024

Algorithms

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Ore hauling operations are crucial within the mining industry as they supply essential minerals to production plants. Conducted with sophisticated and high-cost operational equipment, these operations demand meticulous planning to ensure that production targets are met while optimizing equipment utilization. In this study, we present an algorithm to determine the minimum amount of hauling equipment required to meet the ore transport target. To achieve this, a mathematical model has been developed, considering it as a parallel machine scheduling problem with different speeds and release times, focusing on minimizing both the completion time and the costs associated with equipment use. Additionally, another algorithm was developed to allow the tactical evaluation of these two variables. These procedures and the model contribute significantly to decision-makers by providing a systematic approach to resource allocation, ensuring that loading and hauling equipment are utilized to their fullest potentials while adhering to budgetary constraints and operational schedules. This approach optimizes resource usage and improves operational efficiency, facilitating continuous improvement in mining operations.

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An Underground Mine Ore Pass System Optimization via Fuzzy 0–1 Linear Programming with Novel Torricelli–Simpson Ranking Function

Halilović

Gligorić

et al. 2023

Mathematics

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In this work, we propose a 3D dynamic optimization model that enables the design of an underground mine ore pass system with uncertainties. Ore transportation costs and ore pass development costs are quantified by triangular fuzzy numbers. Transportation costs are treated as production costs, and they vary over the duration of mining operation, while development costs of ore passes are treated as an investment, and they are treated as constant. The developed model belongs to the class of fuzzy 0–1 linear programming models, where the fuzzy objective cost function achieves a minimum value, with respect to given set of techno-dynamic constraints. Searching for optimal value in the fuzzy environment is a hard task, and because of that, we developed a new ranking function which transforms the fuzzy optimization model into a crisp one. A triangular fuzzy number can be presented as a triangular graph G(V,E) composed of vertices and edges. The x-coordinate of the Torricelli point of a triangular graph presents the crisp value of a triangular fuzzy number. The use of this model lets us know the optimal number of ore passes, optimal location of ore passes, and optimal dynamic ore transportation plan.

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Rescheduling Plan Optimization of Underground Mine Haulage Equipment Based on Random Breakdown Simulation

Cited by 4 publications

References 11 publications

Research on the Application of Intelligent Diagnosis of Major Equipment Failures in Coal Mines

Research on the Application of Intelligent Diagnosis of Major Equipment Failures in Coal Mines

The Parallel Machine Scheduling Problem with Different Speeds and Release Times in the Ore Hauling Operation

An Underground Mine Ore Pass System Optimization via Fuzzy 0–1 Linear Programming with Novel Torricelli–Simpson Ranking Function

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