WANG W X, LI K, LI Y X,et al.Research and application of a dual-prevention information system for tailings ponds[J].Journal of Henan Polytechnic University(Natural Science) ,2025,44(6):45-54.

doi:10.16186/j.cnki.1673-9787.2025030065

Received: 2025/03/28

Revised: 2025/05/19

Published: 2025/10/14

Research and application of a dual-prevention information system for tailings ponds

Wang Weixiang1,2, Li Kun1,2, Li Yaoxuan1,2, Cui Yiyuan1,2, Chu Yifan1,2, Wang Yali1,2

1.Beijing General Research Institute of Mining & Metallurgy， Beijing  100160， China；2.National Centre for International Joint Research on Green Metal Mining， Beijing  102628， China

Abstract: Objectives To enhance the information and digitalization capabilities of the dual-prevention mechanism for tailings ponds and to improve the level of risk prevention and hazard management， this study investigates the development and application of a dual-prevention information system for tailings ponds.  Methods The system was designed and implemented through the creation of a mechanism framework， establishment of a system architecture， development of a software platform， and practical deployment. a dual closed-loop prevention and control framework was constructed. An information system architecture combining a B/S structure with mobile API applications was designed， and a dual-prevention information system for tailings ponds was developed and deployed in line with the actual conditions of a specific enterprise. Results The system realizes a dual closed-loop structure： one loop for risk classification and control， and another for hazard identification and management， supported by continuous improvement of operational mechanisms. The architecture consists of six layers-infrastructure， data， communication， functional， user， and presentation. The system integrates modules for risk classification management， hazard identification and management， auxiliary functions， and system administration， and has been successfully implemented in practice. Conclusions Field applications demonstrate that the system enables real-time identification， dynamic control， and precise management of safety risks and hazards in tailings ponds. It also provides statistical analysis and visual presentation of safety management data， thereby significantly enhancing the level of safety management and playing a vital role in accident prevention and sustainable mine safety.

Key words: tailings ponds; double prevention mechanism; information system; safety management