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Estimating dewatering in an underground mine by using a 3D finite element model
Author(s) -
Litang Hu,
Menglin Zhang,
Yang Zhou,
Yong Fan,
LI Ji-xiu,
Hongliang Wang,
Celestin Lubale
Publication year - 2020
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0239682
Subject(s) - hydrogeology , dewatering , groundwater , mining engineering , inflow , geology , borehole , aquifer , groundwater flow , groundwater model , hydrology (agriculture) , underground mining (soft rock) , geotechnical engineering , coal mining , engineering , coal , oceanography , waste management
Groundwater inflow to an underground mine will seriously affect its mining plan and engineering geology safety. Groundwater models are powerful tools commonly used in the mines to develop dewatering strategies. Many mines in the Kolwezi area have been present since the 1950s, and groundwater flow patterns have been significantly influenced by mining activities. A mining plan is developed for an underground mine with overturned syncline strata in Kolwezi, Congo. Previous groundwater models using layered homogeneous media lowered model accuracies. A new three-dimensional groundwater model using FEFLOW, consisting of a combined regionally and locally geology models integrating 16 hydrogeological cross-sections and borehole logging data, are formulated to predict the underground dewatering in the study area. A 31-days pumping tests with 3 pumping wells and 28 observation wells are carried out to estimate the hydrogeological properties. The simulated water level data match the observed data rather well. Under 8 scenarios of possible well designs, the model predicts a possible dewatering capacity greater 23,900 m 3 /d at the initial stage of mining. The concept of the model and its application can be a reference for other mines with complex geology for mining safety in the region of interest.

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