Abstract
In this research, first, a brief review of heap leaching structures is presented. Then, some engineering properties of natural and geo-synthetic materials of a leaching heap bed are introduced. Next, physical models of these structures are tested using a tilting table, and the apparatus’s “scale factor” for the evaluation of the probable slides in these structures is determined. Analyses have shown that the “scale factor” of the “factor of safety” for the above physical models against slide approximately equals 1; therefore, the slide mechanism in such structures can be studied using tilting table experimental models. On this basis, 12 physical models of leaching heaps were made and their stability checked with the apparatus. Next, using Morgenstern and Price method, the stability of the above models was evaluated and the analytical and physical results were compared for the verification of the limit equilibrium approaches. Comparisons have shown that the error of such methods in the stability analyses of leaching heaps is <8 %. As a real case study, the Shahr-e-Babak heap leaching structure failure and its stabilization methods have been presented. In this project, tensile cracks occurred in the upper section of the heap after loading the second ore lift, and a part of it slid. The heap was stabilized using a double textured geo-membrane liner and safety berms.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Altaee A, Fellenius BH (1994) Physical modeling in sand. Can Geotech J 31:420–431
Amini M (2005) Block to block stability analysis and its usage in heap leaching structure. In: M.Sc. Thesis, Submitted to the School of Mining Engineering, University College of Engineering, University of Tehran, Iran, 83 pp
Breitenbach AJ (1997) Overview study of several geomembrane liner failures under high fill load conditions. In: Geosynthetics 97 Conference Proceedings, Industrial Fabrics Association International, pp 1045–1062
Breitenbach AJ (2003) The Good, the bad and the ugly lessons learned in the design and construction of heap leach pads. SME annual meeting presentation, Colorado
Breitenbach AJ (2004) Improvement in slope stability performance of lined heap leach pads from design to operation and closure. GFR Eng Solut 22:1–14
Briancon L, Girard H, Gourc JP (2011) A new procedure for measuring geosynthetic friction with an inclined plane. J. Geotext. Geomembr. 29:472–482
Kariminasab S, Nabizadeh MA (2001) Stability analysis of the heap leaching structure 2, Sarcheshmeh Copper Mine. M.Sc Thesis, University of Kerman
Kariminasab S, Hojat A, Mollaeifard MR (2004) Technical factors for selecting optimum heap leach pad sites. E&M J 3:54–59
Koerner RM, Martin JP, Koerner GR (1986) Shear strength parameters between geomembranes and cohesive soils. Geotext Geomembr 4(1):21–30
Ling HI, Burke C, Mohri Y, Matsushima K (2002) Shear strength parameters of soil-geosynthetic interfaces under low confining pressure using a tilting table. Geosynth Int 9(4):373–380
Lupo JF (2010) Liner system design for heap leach pads. J Geotext Geomembr 28:163–173
Lupo JF, Morrison KF (2007) Geosynthetic design and construction approaches in the mining industry. J Geotext Geomembr 25:96–108
Majdi A, Amini M, Kariminasab S (2007) Adequate drainage system design for heap leaching structures. J Hazard Mat 147:288–296
Majdi A, Amini M, Amini Chermahini A (2009) An investigation on mechanism of acid drain in heap leaching structures. J Hazard Mater 165:1098–1108
Pitanga HN, Gourc JP, Vilar OM (2009) Interface shear strength of geosynthetics: evaluation and analysis of inclined plane tests. Geotext Geomembr 27(6):435–446
Russell D, Jones V, Dixon N (1998) shear strength properties of geomembrane/geotextile interfaces. Geotext Geomembr 16(1):45–71
Theil R, Smith EM (2004) State of the practice review of heap leach pad design issues. J Geotext Geomembr 22:555–568
Wasti Y, Bahadır Özdüzgün Z (2001) Geomembrane–geotextile interface shear properties as determined by inclined board and direct shear box tests. Geotext Geomembr 19(1):45–57
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Amini, M., Shafiei, M. & Torabikhah, M. Investigating the Slide Mechanism of Heap Leaching Structures Based on Physical Modeling. Geotech Geol Eng 33, 1499–1510 (2015). https://doi.org/10.1007/s10706-015-9916-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10706-015-9916-2