Journal of Electrical Engineering and Automation

As a critical component in mining operations, deep shaft auxiliary transportation systems face energy consumption challenges that directly impact overall efficiency and economic benefits. Analysis of system operation characteristics and energy consumption patterns reveals that frequent vehicle start-stop cycles, slope resistance, and mechanical transmission losses are the primary energy consumers. Based on operational conditions, this study proposes energy-saving strategies including optimized traction modes, improved transmission efficiency, regenerative braking systems, and intelligent scheduling. Research findings demonstrate that these energy-efficient measures not only significantly reduce transportation energy consumption but also enhance equipment lifespan and operational stability, providing practical solutions for optimizing energy efficiency in mine transportation systems.

Deep shaft auxiliary transportation; Continuous traction system; Energy consumption analysis; Energy-saving measures