Сriteria for energy efficiency of mining dust collectors within the mine safety system

Критерии энергетической эффективности горных машин пылеулавливания в системе безопасности горных предприятий
Nurkhozhaev E.S. Ugolnikov A.V. Makarov V.N. Makarov N.V. Stozhkov D.S.
2025 Federal State Budgetary Educational Institution of Higher Education Ural State Mining University

Minerals and Mining Engineering
2025 #2025 Issue 4 91 - 99 pp.

Introduction. Energy efficiency criteria for mining dust collectors is studied in the context of mine safety. The article considers an integrated approach to flow processes monitoring and management, which is important to ensure competitiveness and compliance with environmental requirements Research relevance is due to the need to improve mining dust collectors’ energy and environmental efficiency given the intensive development of the mining industry. Dust collection technology improvement plays a key role in ensuring worker safety and reducing the environmental impact. Methods of research. The studies were conducted to develop and verify the integral coefficient of environmental and energy efficiency of the aerological protection system within the framework of the multifunctional safety system. The basis was formed by the existing approaches and experiments aimed at studying the mechanisms of nozzles interaction with dust particles and determining the optimal configuration of dust collection equipment. Results and analysis showed that the ventilation system energy intensity affects the overall efficiency of dust collection directly. An integral coefficient of environmental and energy efficiency has been developed, allowing to evaluate various aspects of the system operation. Experimental data confirmed increased environmental and energy efficiency of aerological multifunctional safety system by 44% in recent years. Conclusion. Hydro-cyclone dust collection is recognized as an effective method for increasing energy efficiency. The developed coefficients allow to optimize energy consumption and improve production indicators. The obtained results contribute to improving safety and reducing the environmental impact in the coal mining industries.

coal dust explosions , dust collection , energy efficiency , environmental efficiency criterion , explosion localization , labor safety , mining dust collectors , mining enterprises , multifunctional coal mine safety system , ventilation systems

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Kostanay Minerals JSC, Zhitikara, Kazakhstan
Department of Electrical Engineering, Ural State Mining University, Ekaterinburg, Russian Federation
Department of Mining Mechanics, Ural State Mining University, Ekaterinburg, Russian Federation

Kostanay Minerals JSC
Department of Electrical Engineering
Department of Mining Mechanics

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