ZHAO Yuxing,LI Xiangwen. Predicted water yield of open-pit metal mines based on a Bi-RNN and GMS coupling model[J]. Coal Geology & Exploration,2024,52(12):155−169. DOI: 10.12363/issn.1001-1986.24.07.0489
Citation: ZHAO Yuxing,LI Xiangwen. Predicted water yield of open-pit metal mines based on a Bi-RNN and GMS coupling model[J]. Coal Geology & Exploration,2024,52(12):155−169. DOI: 10.12363/issn.1001-1986.24.07.0489

Predicted water yield of open-pit metal mines based on a Bi-RNN and GMS coupling model

  • Objective Accurately predicting water yield of mine before mining can provide directive guidance for preventing potential water hazards and ensuring safe production.
    Methods To enhance the prediction accuracy and stability of water yield of open-pit metal mines, for which atmospheric precipitation acts as the primary recharge source of water, this study developed a prediction model that coupled a bidirectional recurrent neural network (Bi-RNN) and the Groundwater Modeling System (GMS) software. Specifically, based on historical forecasted precipitation data provided by the Global Forecast System (GFS), the fluctuation pattern of differences between predicted forecasted and actual precipitation was analyzed. After being corrected using the Bi-RNN, the forecasted precipitation data were input into GMS for prediction. The coupling model was employed to predict water yield of mine in the northern and southern mining areas in the study area. Concurrently, the water yield of mine in the mining areas was also predicted using both the traditional large diameter well method and the recharge modulus large diameter well method. Finally, the prediction results based on the three methods were compared.
    Results and Conclusions The results indicate that the coupling model, the traditional large diameter well method, and the recharge modulus large diameter well method yielded water yield of mine of 294 m3/d, 276.651 to 940.613 m3/d, and 287.241 m3/d, respectively for the northern mining area and 1160 m3/d, 3330.107 to 5090.944 m3/d, and 1108.575 m3/d, respectively for the northern mining areas. These results suggest that the proposed coupling model, a prediction method combining multiple data sources, has achieved certain results and enjoys certain advantages in predicting water yield of mine. This model provides a new philosophy and technical support for predicting water yield of mine, exhibiting high theoretical value and great potential for practical application.
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