Field Measurement and Mechanical Analysis of Height of the Water Flowing Fracture Zone in Short-Wall Block Backfill Mining beneath the Aquifer: A Case Study in China

الملخص EN

Short-wall block filling mining (SBBM) technology has become an effective way to recover coal resources beneath the aquifer, which are unsuitable, or cannot be used by long-wall mining, such as corner coal pillars, industrial square pillars, and irregular coal blocks as well as the coal beneath buildings, railways, and water bodies.

The SBBM method can not only enhance the recovery ratio but also provide a solution for the environment problems associated with gangues on the surface.

However, whether the height of water flowing fractures will reach to the aquifer to cause water loss during SBBM has always been a key problem.

Therefore, based on the theory of elastic foundation beam and SBBM characteristics, a mechanical model for calculating the height of a water flowing fracture zone in the overlying strata of SBBM was established, and this model calculated that the height of the water flowing fracture zone was 27.0 m in the experimental working face, and the height of the water flowing fracture zone was measured as 26.8 m according to washing fluid loss in the hole, core damage analysis, and drilling TV imaging detection.

The comparison results demonstrated that the calculated value almost fit well with the field-measured data, validating the accuracy of the proposed mechanical model, while the predicted value (48.7 m) in the Regulations of coal mining under building, railways and water-bodies deviates greatly from the measured results.

This reveals that the prediction formula in Regulations is not effective in predicting the height of the water flowing fracture zone in SBBM.

The present research results are of great significance to further enhancing the recovery ratio of coal resources and improving the water-preserved mining theory.