Abstract:In view of the problems of low utilization rate of underground mine space and increasing demand for electricity storage and energy storage in Yunnan Province, the feasibility and key technologies of the construction of pumped-storage power stations in underground mines are analyzed, in consideration of rock mechanics, mining planning, environment, economy and other various factors. The quantitative evaluation is made on the development potential of the abandoned mine pumped-storage power station in Yunnan Province. Based on the conventional pumped-storage power plant, combining with the geological conditions, the natural resources and underground excavation space situation, the feasibility of the key technologies such as site selection, stability of underground space and anti-seepage of underground space during the construction of mine pumped-storage power station is comprehensively evaluated. The preliminary results show that: Yunnan Province is rich in natural resources and has superior development conditions, which can better meet the electricity demand of Yunnan Province at the present stage. The accumulated excavation space of numerous mines in Yunnan Province exceeds 1.5×10⁹ m³, and the usable volume is about 1.2×10⁸ m³, which provides excellent basic conditions for the construction of underground pumped-storage power stations. The pumped-storage power stations in mines of Yunnan Province can generate 3.29×10¹⁰ kW·h of electricity per year. According to the calculation based on a real mine, the power generation will reach 1.76×10⁸ kW·h per year when the water is pumped for 5 hours a day, and it will bring huge economic benefits. According to the research results, it is feasible to reconstruct pumped-storage power station using abandoned mine, and it can produce better dynamic and static benefits. Combining “smart mine” with pumped-storage power station constructed by using abandoned mine to realize intelligent integrated pumped-storage has a good development prospect in the future.