Abstract
In any open cast mine, the management of stripped spoil during mining is crucial to the mine’s successful operation. The improper management of the overburden (OB) dump can result in stability issues which may affect safety and production of the mine. Various literatures have reported the failure of open pit dumps and the consequences in loss of life, production and impact on neighbouring amenities. Recently, the failure of an out-of-pit OB dump at an Indian Colliery was reported. The failed OB dump displaced spoil approximately 70 m from the original location of the dump toe and impacted on neighbouring amenities. This paper back analyse material properties and investigates the probable mechanism of this OB failure. Well established tools including limiting equilibrium and continuum numerical methods have been used to understand and identify the failure kinematics of this dump. It has been found that the residual friction angle of the material comprising the dump structural unit dominates stability. Mobilisation of residual strength can occur by operational induced strains and/or the presence of water. The shear strength of the foundation was fully mobilised and provided a slip surface for the overlying dump material. The resultant failure is manifest as a bilinear wedge movement of two ridged blocks defined by linear rupture planes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abramson LW, Lee TT, Sharma S, Boyce GM (2002) Slope stability concepts. Slope stabilisation and stabilisation methods, 2nd edn. Wiley, New York, pp 329–461
Ajay Kumar L, Muttharam M (2010) Report of Invesitgation to Assess The Stability of Medapalli Opencast Mine of Ramagundam Area - I. Report Submitted to SCCL. College of Engineering, Anna University, Guindy
Aryal KP (2006) Slope stability evaluations by Limit Equilibrium and Finite Element Methods. Doctoral Thesis, NTNU
Chugh AK (1986) Variable interslice force inclination in slope stability analysis. Soil Found 26(1):115–121
Dawson RF, Morgenstern NR, Stokes AW (1998) Liquefaction flowslides in Rocky Mountain coal mine waste dumps. Can Geotech J 35:2
FLAC (2008) 3D Users Manual Itasca Consulting Group, version 6.0, 2008
Fredlund DG, Krahn J (1977) Comparison of slope stability methods. Can Geotech J 14:429–439
Hammah R, Yacoub T, Corkum B, Curramn J, (2005) A comparison of finite element slope stability analysis with conventional limit-equilibrium investigation. In: Proceedings of 58th Canadian Geotechnic and 6th Joint IAH-CNC and CGS Groundwater Specialty Conference (GeoSask)
Hungr O (1995) A model for the runout analysis of rapid flow slides, debris flows, and avalanches. Can Geotech J 32:610–623
Hungr O, Dawson R, Kent A, Morgenstern NR (2002) Rapid flow slides of coal-mine waste in British Columbia. Canada Geol Soc Am Rev Eng Geol 15:1–18
Kainthola A, Verma D, Gupte SS, Singh TN (2011) A coal mine dump stability analysis. Geomaterials 1:1–13
Ortiz JMR, Serra J, Oteo C (1986) Curso Aplicado de Cimentaciones, 3rd edn. Colegio de Arquitectos de Madrid, Madrid
Richards BG, Coulthard MA, Toh CT (1981) Analysis of slope stability at Goonyella Mine. Can Geotech J 18:179–194
Roberson A (1985) Mine waste disposal: an update on geotechnical and geohydrological aspects. In: Steffen, Robertson & Kirsten, Vancouver, Canada
Rosengren K, Simmons J, Maconochie AP, Sullivan T (2010) Geotechnical investigations for open pit mines—250 m and beyond. In: Bowen Basin Symposium, pp 169–179
Simmons J (2013) Geotechnical support for open pit coal mining. Aust Geomech 48:1
SLIDE (2003) Stability analysis for soil and rock slopes. Slide, User’s Guide, Geomechanical Software Solution, Rocscience Inc. Canada
Steiakakis E, Kavouridis K, Monopolis D (2009) Large scale failure of the external waste dump at the “South Field” lignite mine, Northern Greece. Eng Geol 104:269–279
Yu H, Salgado R, Sloan S, Kim J (1998) Limit analysis versus limit equilibrium for slope stability. J Geotech Geoenviron Eng 124(1):1–11
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Poulsen, B., Khanal, M., Rao, A.M. et al. Mine Overburden Dump Failure: A Case Study. Geotech Geol Eng 32, 297–309 (2014). https://doi.org/10.1007/s10706-013-9714-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10706-013-9714-7