[Objective] Based on the advantages of the "well and electricity dual control" platform that has been built in the irrigation area, the dynamic changes of the groundwater flow field during the mining period were obtained by using the water level of the pumping well, in order to provide technical support for the scientific management and rational utilization of groundwater resources.[Methods] Using Processing MODFLOW software to simulate the simulated flow field in the study area, and taking it as the criterion for determining the flow field of the pumping well water level, the fitting effect of the flow field was evaluated and improved.[Results] The flow field obtained by directly using the water level of the pumping well was smaller than the simulation flow field. The flow field obtained by using the water level after the corrected drawdown of the pumping well had a good fitting effect with the simulated flow field, but it should be calculated in combination with the model in practice. The dynamic flow field obtained was close to the simulated flow field and was easy to implement by installing water level monitoring equipment in some pumping wells and adding special monitoring wells, indicating that the method could be used for dynamic monitoring of the flow field in the study area.[Conclusion] The proposed method of using pumping wells as monitoring wells based on the "well and electricity dual control" system effectively can solve the problem of deviations in groundwater management caused by the low density of groundwater monitoring stations and poor information transmission timeliness. It has certain application value for strengthening the dual control management of groundwater level and water volume and the protection of regional groundwater resources.