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Research on Key Technologies and Integrated Solutions for Intelligent Mine Ventilation Systems

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Publicado en:Technologies vol. 13, no. 10 (2025), p. 451-473
Autor principal: Zhong Deyun
Otros Autores: Wen Lixue, Liu, Yulong, Wu Zhaohao, Wang Liguan, Ji Xianwei
Publicado:
MDPI AG
Materias:
Mines
Software
Linear programming
Coal mining
Integer programming
Mineral resources
Communication
Mining accidents & safety
Optimization
Closed loops
Remote control
Data processing
Emergency response
Clean energy
Information sharing
Automation
Energy consumption
Ventilation
Nonlinear programming
Air flow
Mine ventilation
Network management systems
Occupational safety
Sensors
Decision making
Design
Algorithms
Mixed integer
Real time
Design optimization
Mining industry
Energy conservation
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Resumen:Intelligent ventilation systems can optimize airflow regulation to enhance mining safety and reduce energy consumption, driving green development in mineral resource extraction. This paper systematically elaborates on the overall architecture, cutting-edge advances, and core technologies of current intelligent mining ventilation. Building upon this foundation, a comprehensive intelligent mine ventilation solution encompassing the entire process of ventilation design, optimization, and operation is constructed based on a five-layer architecture, integrating key technologies such as intelligent sensing, real-time solving, airflow regulation, and remote control, providing an overarching framework for smart mine ventilation development. To address the computational efficiency bottleneck of traditional methods, an improved loop-solving method based on minimal independent closed loops is realized, achieving near real-time analysis of ventilation networks. Furthermore, a multi-level airflow regulation strategy is realized, including the methods of optimization control based on mixed integer linear programming and equipment-driven demand-based regulation, effectively resolving the challenges of calculating nonlinear programming models. Case studies indicate that the intelligent ventilation system significantly enhances mine safety and efficiency, leading to approximately 10–20% energy saving, a 40–60% quicker emergency response, and an average increase of about 20% in the utilization of fresh air at working faces through its remote and real-time control capabilities.
ISSN:2227-7080
DOI:10.3390/technologies13100451
Fuente:Materials Science Database