Abstract: A cement raw material mine in Tibet is located in a high-altitude environment. Constrained by factors such as extreme cold, oxygen deficiency, and inadequate local 4G network coverage, the traditional mining mode faces challenges including low production efficiency, high safety risks, extensive resource management and control, and weak digital infrastructure. In response to the national call for intelligent mine construction, the mine, centered on the in-depth integration of digital twin, Internet of Things, big data, and cloud computing technologies, has built an intelligent production management and control system cluster covering the entire chain of "geological resources-safe production-ecological protection" based on the "1+2+N" architecture system. This cluster includes 1 mine data center, 2 intelligent management and control platforms, and N sets of safety monitoring systems, with its collaborative operation guaranteed by a five-layer architecture including the data acquisition layer and infrastructure layer, realizing digital mapping and real-time collaborative management and control of the entire mine production process. Practice has shown that the system cluster significantly improves the mine's mining efficiency and resource recovery rate, reduces the energy consumption per ton of ore and safety accident rate, and shortens the emergency response time. It has successfully overcome the technical adaptation problems of high-altitude mining, providing a replicable model for the construction of intelligent production management and control in high-altitude mines, and demonstrating important exemplary value for the efficient, safe, and green development of mineral resources in special environments.
普琼, 白新涛, 司文倩. 西藏高海拔矿山智能化生产管控系统集群建设与应用[J]. 水泥技术, 2026, 1(1): 25-31.
PU Qiong, BAI Xintao, SI Wenqian. Construction and Application of Intelligent Production Management and Control System Cluster for High-altitude Mines in Tibet. Cement Technology, 2026, 1(1): 25-31.
