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Numerical Analysis of Longwall Mining Layout for a Wyoming Trona Mine

Date

2016

Authors

Corkum, Andrew
Board, Mark

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

At Solvay Mine, located in southwestern Wyoming, a subhorizontal trona seam is mined at depths of between 460-490 m using mechanized room-and-pillar and longwall mining methods. The stratigraphy at the mine generally consists of horizontally laminated (i.e., bedded) sedimentary rocks comprised mostly of shales and sandstones with significantly contrasting mechanical properties. Most notably, a 43 – 82 m-thick massive, brittle sandstone unit (Tower Sandstone) is located approximately 100 m above the mining level. The Tower Sandstone unit has a tendency to promote stress arching within the overburden rock that can bridge over panel-scale mine instabilities and can lead to violent multi-panel collapse failure. One such violent collapse is the well-documented 5.1 magnitude seismic event due to a 1 x 2 km multi-panel failure on February 3, 1995. It has proven difficult to account for this arching behaviour with conventional mine design methods, such as the tributary area method. Therefore, over the past two decades or more, Solvay Mine has been utilizing numerical modelling techniques along with field instrumentation/monitoring as part of an integrated program to gain an enhanced understanding of the complex response of the overlying stratigraphy (i.e., arching) to mining. In 2005 and 2006, several longwall panels in the northwest and southeast areas of the mine were instrumented and monitored during mining. Two- and three-dimensional numerical models, using FLAC and FLAC3D, were developed and calibrated on the basis of the instrumentation data, and these models were then used for mine design verification (e.g., pillar and panel dimensions). This mining case study illustrates the complex excavation response due to the contrasts in stratigraphy at Solvay Mine and presents a numerical modelling study that captures the dominant aspects of these conditions. In addition, the practical use and role of numerical modelling and instrumentation within an integrated mine design methodology is demonstrated.

Description

Keywords

Trona mines and mining, subsidence, instrumentation, numerical modelling, FLAC, longwall mining, Wyoming

Citation

Corkum AG, Board MP. Numerical analysis of longwall mining layout for a Wyoming Trona mine. Int J Rock Mech Min Sci 2016; 89:94-108. doi:10.1016/j.ijrmms.2016.09.001

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