Details

Title

Determination of Optimum Truck Number at Open Coal Quarry

Journal title

Archives of Mining Sciences

Yearbook

2021

Volume

vol. 66

Issue

No 2

Affiliation

Tosun, Abdurrahman : Dokuz Eylul University, Bergama, 35062, Izmir, Turkey

Authors

Keywords

Optimum truck number ; excavator ; rock mass characteristics

Divisions of PAS

Nauki Techniczne

Coverage

213-225

Publisher

Committee of Mining PAS

Bibliography

[1] S. Alarie, M. Gamache, Overview of Solution Strategies Used in Truck Dispatching Systems for Open Pit Mines. International Journal of Surface Mining Reclamation and Environment 16, 59-76 (2002).
[2] M. Beaulieu, M. Gamache, An Enumeration Algorithm for Solving the Fleet Management Problem in Underground Mines. Computers and Operations Research 33 (6), 1606-1624 (2006).
[3] A.C.M.M. Campelo, T. Marin, The Impact of Payload Truck Factor Use in Mine Performance Reports for an Open Pit Copper Mine in Brazil. REM – International Engineering Journal 71 (3), (2018). DOI: https://doi. org/10.1590/0370-44672017710189
[4] Y. Chang, Ren and S. Wang, Modelling and Optimizing an Open-Pit Truck Scheduling Problem. Discrete Dynamics in Nature and Society (745378), 8 (2015). DOI: https://doi.org/10.1155/2015/745378
[5] P. Chaowasakoo et al., Digitalization of Mine Operations Scenarios to Benefit in Real-Time Truck Dispatching. International Journal of Mining Science and Technology 27 (2), 229-236 (2017).
[6] Y . Choi et al., Multi-Criteria Evaluation and Least-Cost Path Analysis for Optimal Haulage Routing of Dump Trucks in Large Scale Open Pit Mines. International Journal of Geographical Information Science 23 (12), 1541- 1567 (2009).
[7] S.R. Dindarloo, M. Osanloo, S. Frimpong, A Stochastic Simulation Framework for Truck and Shovel Selection and Sizing in Open Pit Mines. Journal of the Southern African Institute of Mining and Metallurgy 115 (3), 209-219 (2015).
[8] S.G. Ercelebi, A. Bascetin, O ptimization of Shovel-Truck System for Surface Mining. Journal of The Southern African Institute of Mining and Metallurgy 109, 433-439 (2009).
[9] Y . Li, N.L. Hu ,G.Q. Li, Open-Pit Hauling Dispatching Optimization Based on Improved Pso Algorithm. China’s Mining Magazine 22 (4), 98-105 (2013).
[10] G . Liu, S. Chai, Optimizing Open-Pit Truck Route Based on Minimization of Time-Varying Transport Energy Consumption. Mathematical Problems in Engineering (687108) (2019). DOI: https://doi.org/10.1155/2019/6987108
[11] P.R. Michaud, J.Y. Blanchet, Establishing a Quantitative Relation Between Post Blast Fragmentation and Mine Productivity a Case Study. Proceedings of 5th International Symposium on Rock Fragmentation by Blasting 386- 396 (1996).
[12] A. Moradi Afrapoli, H. Askari-Nasab, Mining Fleet Management Systems: A Review of Models and Algorithms. International Journal of Mining Reclamation and Environmental 1-19 (2017).
[13] M. Munirathinam, J.C. Yingling, A Review of Computer-Based Truck Dispatching Strategies for Surface Mining Operations. International Journal of Surface Mining Reclamation and Environmental 8, 1-15 (1994).
[14] S.P. Singh, T. Yalcin, Effects of Muck Size Distribution on Scooping Operations. Proceedings of 28th Annual Conference on Explosives and Blasting Techniques 315-325 (2002).
[15] M. Sarı, P.J.A. Lever, Effect of Blasted Rock Particle Size on Excavation Machine Loading Performance. 20th International Mining Congress and Exhibition of Turkey. ISBN 978-9944-89-288-9 (2007).
[16] R .F. Subtil, D.M. Silva, J.C. Alves, 35th Apcom Symposium/ Wollongong, Nsw, 24-30 September, 765-777 (2011).
[17] L . Zhang, X. Xia, An Integer Programming Approach for Truck-Shovel Dispatching Problem in Open-Pit Mines. Energy Procedia 75, 1779-1784 (2015).

Date

2021.06.28

Type

Article

Identifier

DOI: 10.24425/ams.2021.137458
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