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Methodology for a Dump Design Optimization in Large-Scale Open Pit Mines
Abstract
Dump design and scheduling are critical elements to effective mine planning, especially if several of them are required in large-scale open pit mines. Infrastructure capital and transportation costs are considerable from an early stage in the mining project, and through the life-of-mine as these dumps gradually become immense structures. Delivered mining rates, as well as certain spatial and physical constraints, provide a set of parameters of mathematical and economic relationship that creates opportunities for modelling and thus facilitates the measuring and optimization of ultimate dump design by using programming and empirical techniques while achieving economic objectives. This paper presents a methodology to model and optimize the design of a mine dump by minimizing the total haulage costs. The proposed methodology consists on: (i) Formulation of a dump model based on a system of equations relying on multiple relevant parameters; (ii) Solves by minimizing the total cost using linear programming and determines a ‘preliminary’ dump design; (iii) Through a series of iterations, modifies the ‘preliminary’ footprint by projecting it to the topography and creates the ultimate dump design. Finally, an example application for a waste rock dump illustrates this methodology.
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Practical large-scale mathematical programming involves more than just the application of an algorithm to minimize or maximize an objective function. Before any optimizing routine can be invoked, considerable effort must be expended to formulate the underlying model and to generate the requisite computational data structures. AMPL is a new language designed to make these steps easier and less error-prone. AMPL closely resembles the symbolic algebraic notation that many modelers use to describe mathematical programs, yet it is regular and formal enough to be processed by a computer system; it is particularly notable for the generality of its syntax and for the variety of its indexing operations. We have implemented an efficient translator that takes as input a linear AMPL model and associated data, and produces output suitable for standard linear programming optimizers. Both the language and the translator admit straightforward extensions to more general mathematical programs that incorporate nonlinear expressions or discrete variables.
With the increasing adoption of surface mining/open pit, problems of associated waste dump, instability of which affects resource recovery, mining cost, safety and environmental hazards, has become the matter of prime concern to planners and operators. Greater attention is therefore required to critically analyse the factors controlling slope failure of spoil heaps. The present paper deals with some of these parameters, their effect on dump stability and remedial measures called for.
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Proceeding of the first international seminar on the Management of Rock dumps, stockpiles and Heal leach pads
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M. Russell. So you want to have the best Possible Waste Rock Dump, Rock Dumps 2008. Proceeding of the
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117-127
Be open to closure -It Can Save You Money
- K Sommerville
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K. Sommerville and J. Heyes. Be open to closure -It Can Save You Money. Seventh International Mining,
Geology Conference. Perth, WA., 2009, Pp 317-322