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Optimizing Mine Ventilation Systems: An Advanced Mixed-Integer Linear Programming Model

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Publicado en:Mathematics vol. 13, no. 18 (2025), p. 2906-2925
Autor principal: Zhong Deyun
Otros Autores: Wen Lixue, Liu, Yulong, Wu Zhaohao, Wang Liguan
Publicado:
MDPI AG
Materias:
China University of Mining & Technology
China
Air flow
Mines
Mine ventilation
Linear programming
Coal mining
Integer programming
Underground mines
Mathematical models
Network management systems
Optimization
Linear control
Variables
Pressure distribution
Methods
Algorithms
Mixed integer
Objectives
Energy consumption
Nonlinear programming
Optimization models
Acceso en línea:Citation/Abstract
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Resumen:In the underground mine ventilation area, the absence of robust solutions for nonlinear programming models has impeded progress for decades. To overcome the enduring difficulty of solving nonlinear optimization models for mine ventilation optimization, a major technical bottleneck, we first develop an advanced linear optimization technique. This method transforms the nonlinear ventilation optimization and regulation model into a linear control model, avoiding the limitation of difficulty in solving the nonlinear mathematical model. The linear strategy opens up a new solution idea for the nonlinear calculation of the mine ventilation optimization and regulation. Furthermore, this study introduces evaluation metrics for ventilation scheme quality, including minimal energy consumption, fewest adjustment points, and optimal placement of these points, enhancing flexibility in ventilation network optimization. By analyzing the ventilation model control objectives and constraints, we formulated a linear optimization model and developed a multi-objective mixed-integer programming model for ventilation network optimization. This paper constructs and verifies a calculation example model for mine ventilation optimization, assessing its reliability based on airflow distribution calculations.
ISSN:2227-7390
DOI:10.3390/math13182906
Fuente:Engineering Database