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Elahi Zeyni, Ebrahim, Jalali, Seyed Mohammad Esameil, Khalo Kakaei, Reza. (1402). Designing of open-pit mines using new corrected form of the Korobov algorithm. , 57(2), 123-130. doi: 10.22059/ijmge.2022.344423.594976
Ebrahim Elahi Zeyni; Seyed Mohammad Esameil Jalali; Reza Khalo Kakaei. "Designing of open-pit mines using new corrected form of the Korobov algorithm". , 57, 2, 1402, 123-130. doi: 10.22059/ijmge.2022.344423.594976
Elahi Zeyni, Ebrahim, Jalali, Seyed Mohammad Esameil, Khalo Kakaei, Reza. (1402). 'Designing of open-pit mines using new corrected form of the Korobov algorithm', , 57(2), pp. 123-130. doi: 10.22059/ijmge.2022.344423.594976
Elahi Zeyni, Ebrahim, Jalali, Seyed Mohammad Esameil, Khalo Kakaei, Reza. Designing of open-pit mines using new corrected form of the Korobov algorithm. , 1402; 57(2): 123-130. doi: 10.22059/ijmge.2022.344423.594976

Designing of open-pit mines using new corrected form of the Korobov algorithm

International Journal of Mining and Geo-Engineering
مقاله 2، دوره 57، شماره 2، شهریور 2023، صفحه 123-130    اصل مقاله (577.16 K)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22059/ijmge.2022.344423.594976
نویسندگان
Ebrahim Elahi Zeyni* 1؛ Seyed Mohammad Esameil Jalali2؛ Reza Khalo Kakaei2
1Department of Mining Engineering, University of Sistan and Baluchestan, Zahedan, Iran.
2Department of Mining, Petroleum and Geophysics Engineering, Shahrood University of Technology, Shahrood, Iran.
چکیده
In the open-pit mining method, it is necessary to design the ultimate pit limit before mining to determine issues, such as the amount of minable reserve, the amount of waste removal, the location of surface facilities, and production scheduling. If the obtained profit from the extraction of the pit limit becomes maximum, it is called the optimum pit limit. Various algorithms have been presented based on heuristic and mathematical logic for determining the optimum pit limit. Several algorithms, such as the floating cone algorithm and its corrected forms, the Korobov algorithm and its corrected form, dynamic programming 2D, the Lerchs and Grossmann algorithm based on graph theory have been presented to find out the optimum pit limit. Each of these algorithms has particular advantages and disadvantages. The designers of the corrected form of the Korobov algorithm claim that this algorithm can yield the true optimum pit in all cases. Investigation shows that this algorithm is incapable of yielding the true optimum conditions in all models, and in some models the method produces an optimum with a negative value. In this paper, this algorithm has been evaluated, and a modification model is also presented to overcome its disadvantage. This new algorithm was named the Korobov algorithm III. In this paper, this new algorithm was considered in different models of two and three-dimensional space. A case study for designing of the optimum pit limit in three-dimensional space was done for a gold mine in the sewed country. The outcomes of Table 9 show that this new method designs a pit limit with a value of 69428.59 that has better results than previous Korobov algorithms.
کلیدواژه‌ها
Open pit mining؛ Ultimate pit limit؛ Korobov algorithm
مراجع
[1] Khalokakaie, R., Dowd, P.A., Fowell, R.J. (2000). Lerchs-Grossmann algorithm with variable slope angles. Trans. Instn Min. Metal, (Sect. A: Min. industry), 109, A77-A85.

 [2] Khalokakaie, R., Dowd, P.A., Fowell, R.J. (2000). A windows program for optimal open pit design with variable slope angles. International Jounal of Surface Mining, Reclamation and Environment. 14, 261-275.

[3] Carlson, T.R., Erickson, J.D., O’Brain D.T., Pana, M.T. (1966). Computer techniques in mine planning. Mining Engineering, 18 (5), 53-56.

[4] Wright, E.A. (1999). MOVING CONE II - A Simple Algorithm for Optimum Pit Limits Design. Proceedings of the 28th Symposium on the application of computers and operations research in the mineral industries (APCOM), (Colorado USA), 367-374.

[5] Khalokakaie, R. (2006). Optimum open pit design with modified moving cone II methods. Journal of engineering in Tehran University, 4 (3), 297-307, (in Persian).

[6] Elahi, E, Kakaie, R, yusefi, A. (2012). A new algorithm for optimum open pit design: Floating cone method III, Journal of Mining and Environment, 2(2), 118-125. doi: 10.22044/jme.2012.63.

[7] Ares, G, Castañón Fernández, C, Álvarez, I.D, Arias, D, Díaz, A.B. (2022). Open Pit Optimization Using the Floating Cone Method: A New Algorithm. Minerals. 12, 495. https://doi.org/10.3390/min12040495.

[8] Turan, G, Onur, A.H. (2022). Optimization of open-pit mine design and production planning with an improved floating cone algorithm. Optim Eng. https://doi.org/10.1007/s11081-022-09725-4.

[9] Koenigsberg, E. (1982). The optimum contours of an open pit mine: an application of dynamic programming. Proceedings of the 17th Symposium on the application of computers and operations research in the mineral industries (APCOM), (New York: AIME), 247-287.

[10] Wilke, F.L., Wright, E.A. (1984). Determining the optimal ultimate pit design for hard rock open pit mines using dynamic programming. Erzmetal, 37, 139-144.

[11] Yamatomi, J., Mogi, G., Akaike, A., Yamaguchi, U. (1995). Selective extraction dynamic cone algorithm for three-dimensional open pit designs. Proceedings of the 25th Symposium on the application of computers and operations research in the mineral industries (APCOM), Brisbane, 267-274.

[12] Lerchs, H., Grossmann, I.F. (1965). Optimum design of open pit Mine. CIM Bulletin, 58, 47 – 54.

[13] Khalokakaie, R. (1999). Computer-Aided Optimal Open Pit Design with Variable Slope Angles. Ph.D Thesis for the degree of Doctor of Philosophy, Department of Mining and Mineral Engineering the University of Leads.   

[14] David, M., Dowd, P.A., Korobov, S. (1974). Forecasting departure from planning in open pit design and grade control. Proceedings of the 12th Symposium on the application of computers and operations research in the mineral industries (APCOM), (Golden, Colo: Colorado School of Mines), 2, F131-F142.

[15] Dowd, P.A, Onur, A.H. (1993). Open pit optimization - part 1: optimal open pit design. Trans. Instn Min. Metall. (Sect. A: Min. industry), 102, A95-A104.

[16] Elahi Zeyni, E., Khalokakaie, R. (2012). Validation of the corrected form of the Korobov algorithm with the Lerchs and Grossmann method based on graph theory. Iranian Journal of mining engineering, 6 (13), 93-97, (in Persian).

[17] Denby, B. Schofield, D. (1994). Open-pit design and scheduling by use of genetic algorithms. Trans. Instn Min. Metall. (Sect. A: Min. industry), 103, A21-A26.

[18] Azadi, N, Mirzaei-Nasirabad, H, Mousavi, A. (2022). Evaluating the efficiency of the Genetic algorithm in designing the ultimate pit limit of open-pit mines. International Journal of Mining and Geo-Engineering. doi:10.22059/ijmge.2022.340973.594963.

[19] Jodeiri, B, Dehghani, H, Sadeghi, M. (2021). Ultimate Pit Limit Determination Using Flashlight Algorithm. International Journal of Mining and Geo-Engineering. 55(1): 43-48. doi:10.22059/ijmge.2020.296120.594840.

[20]  Hustrulid, W., Kuchta, M. (1995). Open pit mine planning & design volume 1 –Fundamental. BALKEMA, ROTTERDAM.

[21] Elahi, E. (2013). The Principles of Designing Open Pit Mines. Publication of Jihad Amikabir University, (In Persian).

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