Resumen

SHAMSI, M.  y  NEHRING, M.. Determination of the optimal transition point between a truck and shovel system and a semi-mobile in-pit crushing and conveying system. J. S. Afr. Inst. Min. Metall. [online]. 2021, vol.121, n.9, pp.497-504. ISSN 2411-9717.  http://dx.doi.org/10.17159/2411-9717/1564/2021.

One of the most challenging aspects in semi-mobile in-pit crushing and conveying (SMIPCC) system design is determining the optimum depth at which to change from a purely truck-based haulage system to a conveyor-based haulage system. We used scenario analysis to determine the optimum transition depth between a truck and shovel (TS) system and a SMIPCC system. Traditional pit-limit algorithms were used to generate the final pit limit on a copper deposit, which was then divided into four pushbacks. The final operating pushbacks (phases) were designed for both TS and SMIPCC. The end depths for each phase are viewed as candidate transition points to switch from the TS to SMIPCC haulage system. Economic calculations were applied for five different scenarios, including adopting SMIPCC from the outset (pure SMIPCC), after the first, second, and third phases, and finally not using the SMIPCC system (pure TS) at all. The analysis indicates that the second scenario, at a depth of 335 m, results in the lowest cumulative discounted cost (CDC). In this case, the CDC is 17.6% lower than that for the pure TS scenario and 10.7% lower than for the pure SMIPCC system scenario.

Palabras clave : Open-pit mining; mining transportation systems; in-pit crushing and conveying; truck and shovel; transition point.

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