A Methodology to Determine Undercutting Height in Block/Panel Caving
Author:
Morales Danko1, Castro Raúl23, Gómez René34ORCID
Affiliation:
1. Enaex, Santiago 7550079, Chile 2. Department of Mining Engineering, Universidad de Chile, Santiago 4070371, Chile 3. Advanced Mining Technology Center, Santiago 4070371, Chile 4. Faculty of Engineering, Universidad de Concepción, Concepción 4030000, Chile
Abstract
The undercutting process is a technique employed to initiate the caving of the ore mass in block caving, achieved by creating a basal cut on the block scheduled to be submerged. The effective execution of the undercutting process involves numerous variables, such as the undercut height and the vertical section’s undercut geometry, whose influence has often been overlooked. This research presents a methodology for determining the undercut height in a post-undercutting scenario, including variables such as the undercut level design, the extraction level design, and the air gap. Integral to this methodology is a parameterization that estimates the undercut height, from which design abacuses can be created to aid the assessment of present and future operations for any block/panel caving operation that employs the post-undercutting variant. Additionally, two examples demonstrate the application of this methodology, revealing how alterations in the dimensions of the crown pillar and drawbells significantly influence the undercut height. The calculation methodology outlined in this document delivers an undercutting height, providing an evaluation methodology for ongoing operations. Consequently, any height exceeding this suggests a conservative approach, potentially offering an opportunity for design improvement and alignment with the described parameters.
Reference26 articles.
1. Laubscher, D. (2000). Block Cave Manual, Julius Kruttschnitt Mineral Research Centre. 2. Brown, E.T. (2007). Cave initation by undercutting. Block Caving Geomechanics, Julius Kruttschnitt Mineral Research Centre. 3. Quantifying stresses and support requirements in the undercut and production level drifts of block and panel caving mines;Trueman;Int. J. Rock Mech. Min. Sci.,2002 4. Fernandez, F., Evans, P., and Gelson, R. (2010, January 20–22). Design and implementation of a damage assessment system at Argyle Diamond’s block cave project. Proceedings of the Second International Symposium on Block and Sublevel Caving, Perth, Australia. 5. Lett, J.L., Brunton, I., Capes, G.W., Jager, A., Mobilio, B., Rachocki, J., Sharrock, G.B., and Secheny, M. (2016, January 9–11). Undercutting to surface breakthrough—Cadia East panel cave (stage 1). Proceedings of the Seventh International Conference & Exhibition on Mass Mining, Massmin 2016, Sydney, Australia.
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