International Journal of Mining Science and Technology (Jan 2019)

Analysis of gateroad stability at two longwall mines based on field monitoring results and numerical model analysis

  • Gabriel S. Esterhuizen,
  • David F. Gearhart,
  • Ted Klemetti,
  • Heather Dougherty,
  • Mark van Dyke

Journal volume & issue
Vol. 29, no. 1
pp. 35 – 43

Abstract

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Coal mine longwall gateroads are subject to changing loading conditions induced by the advancing longwall face. The ground response and support requirements are closely related to the magnitude and orientation of the stress changes, as well as the local geology. This paper presents the monitoring results of gateroad response and support performance at two longwall mines at a 180-m and 600-m depth of cover. At the first mine, a three-entry gateroad layout was used. The second mine used a four-entry, yield-abutment-yield gateroad pillar system. Local ground deformation and support response were monitored at both sites. The monitoring period started during the development stage and continued during first panel retreat and up to second panel retreat. The two data sets were used to compare the response of the entries in two very different geotechnical settings and different gateroad layouts. The monitoring results were used to validate numerical models that simulate the loading conditions and entry response for these widely differing conditions. The validated models were used to compare the load path and ground response at the two mines. This paper demonstrates the potential for numerical models to assist mine engineers in optimizing longwall layouts and gateroad support systems. Keywords: Coal mining, Longwall, Gateroad, Support, Numerical models