State Power Investment Corporation Shanxi Aluminum Industry Ningwu Kuancaoping Bauxite Mine

Customer Introduction

State Power Investment Corporation Shanxi Aluminum Industry Co., Ltd. is an important enterprise in the aluminum industry, specializing in the processing and sales of alumina, electrolytic aluminum, and aluminum materials; Production, sales, and import/export trade of magnesium aluminum alloys; Research and development of magnesium and aluminum new materials; Mineral resource extraction; Thermal production and supply; Engaged in the import and export business of goods; New energy development; Electricity supply; Sales of mineral products, etc. The existing alumina production capacity is 2.6 million tons, which is a large-scale alumina enterprise among domestic ore enterprises.

Faced with challenges

Resource supply-demand imbalance: coal machine control system, smart mining platform, and monitoring system are each equipped with dedicated hardware, without unified resource pool coordination, high server load during critical periods, and a large amount of idle hardware in multiple systems during non critical periods.

Business without redundant backup: lacks a unified redundant architecture, with no backup nodes for hardware and no unified backup for critical data. Once a single system hardware failure occurs, it will directly lead to production interruption problems such as coal machine shutdown and monitoring disconnection.

Operation and maintenance are decentralized and inefficient: Each system is operated separately without unified monitoring tool coverage, resulting in heavy manual inspection burden, long average troubleshooting time, and increased labor costs.

Solution

With the Juchen Industrial Super Fusion System as the core, we first solve the pain points of resource and backup: integrates the dedicated hardware of coal machine control system, smart mining platform, and monitoring system, builds a unified resource pool, and uses the dynamic scheduling function of super fusion to allocate sufficient computing power and backup to high priority coal machine systems during critical periods. Storage to avoid server lag; During non critical periods, idle resources will be flexibly allocated to other systems to improve resource utilization. At the same time, relying on the hyper converged redundant architecture, backup nodes are configured for hardware to implement multi copy storage and unified backup of key data such as mining parameters and coal machine operation records. Even if a single system hardware failure occurs, the backup nodes can quickly take over and data can be safely restored to avoid production interruptions. On this basis,

optimizes operation and maintenance management through hyper fusion: builds a unified operation and maintenance monitoring platform, which covers the hardware status, operating load, and data flow of the three major systems in real time, replacing traditional manual inspections; The platform supports intelligent fault warning and rapid positioning, reducing the blindness of manual troubleshooting, simplifying the operation and maintenance process, and effectively improving the problems of scattered and inefficient operation and maintenance.

Customer revenue

Resource and cost optimization: Unified resource pool completely solves the problem of hardware idle, improves resource utilization efficiency, and reduces equipment investment costs; At the same time, ensure the stable operation of the coal mining system during critical periods to avoid delays affecting the progress of bauxite mining.

Business continuity and data security: Hardware backup nodes and data multi copy backup mechanism prevent coal machine shutdown and monitoring disconnection caused by hardware failures, reduce losses caused by production interruptions, and provide comprehensive protection for core data.

Operation and maintenance efficiency improvement: Unified operation and maintenance platform significantly reduces manual inspection workload and lowers operation and maintenance labor costs; At the same time, it reduces the occurrence of missed or misjudged faults, improves the response speed and problem-solving efficiency of operations and maintenance.