Efficient using of automobile transport for the deep open-pit mines

• Autorzy: Mahambetov D. , Rakishev B. , Samenov G. , Sładkowski A.

Warianty tytułu

PL

Skuteczne wykorzystanie transportu samochodowego do głębokich kopalni odkrywkowych

RU

Эффективное использование автомобильного транспорта для глубоких карьеров

• Języki publikacji: EN

Abstrakty

EN

In the paper the method is proposed of substantiation of the major parameters for zones of effective use of automobile transport of different loadcarrying capacity by open cast development of the deep deposits. An efficient ratio is determined between the mining and transport equipment by zone-to -zone use.

RU

В статье предлагается метод обоснования основных параметров для зон эффективного использования автомобильного транспорта различной грузоподъемности для открытой разработки глубоких месторождений. Эффективное соотношение определяется в зависимости от горного и транспортного оборудования горной промышленности и транспортного оборудования для каждой зоны его использования.

Słowa kluczowe

EN

mine transport; deep open-pit mine; excavator-automobile complex

PL

transport górniczy; głęboka kopalnia odkrywkowa

• Wydawca: Wydawnictwo Politechniki Śląskiej
• Czasopismo: Transport Problems
• Rocznik: 2013
• Tom: T. 8, z. 3
• Strony: 25--32
• Opis fizyczny: Bibliogr. 9 poz.

Twórcy

autor

Mahambetov D.

• Kazakh National Technical University named after K.I. Satpaev Satpaev 22, 050013 Almaty, Kazakhstan

autor

Rakishev B.

• Kazakh National Technical University named after K.I. Satpaev Satpaev 22, 050013 Almaty, Kazakhstan

autor

Samenov G.

• Kazakh National Technical University named after K.I. Satpaev Satpaev 22, 050013 Almaty, Kazakhstan

autor

Sładkowski A.

• Silesian University of Technology, Faculty of Transport Krasinskiego 8, 40-019 Katowice, Poland

Bibliografia

• 1. Rakishev, B.R. & Begalinov, A.B. & Lunkin, I.V. & Muhamedzhanov, E.B. Optimal planning of extracting works at the open-pit mines of non-ferrous metallurgy of Kazakhstan. In: The 31st International Symposium on “Application of Computers and Operations Research in Minerals Industries”. Cape Town, South Africa. 2003. Р. 159-164.
• 2. Rakishev, B.R. & Lunkin, I.V. Simulation of lay-out and type-size of mining-transportation equipment. Computer Applications in the Minerals Industries. Calgary, Canada. 2003. Р. 123-127.
• 3. Rakishev, B.R. &. Samenov, G.K. & Kuttybaev, A.E. Feasibility of zone-by-zone using of dump tracks of different capacity. In: Proceedings of the 20th International Symposium on Mine Planning and Equipment Selection (MPES 2011). Almaty. 2011. Р. 289-293.
• 4. Grenon, M. & Hadjigeorgiou, J. Integrated structural stability analysis for preliminary open pit design. International Journal of Rock Mechanics and Mining Sciences. 2010. Vol. 47. Issue 3. P. 450-460.
• 5. Sattarvand, J. & Niemann, C. A new multi-objective long-term open-pit production planning method. In: Proceedings of the 22nd World Mining Congress & EXPO. Istanbul. 2011. Р. 499-504.
• 6. Miwa, S. & Tamanishi, Y & Murakami, S. & Yamatomi, J. Long term open-pit mine production scheduling with practical options. In: Proceedings of the 22nd World Mining Congress & EXPO. Istanbul. 2011. Р. 523-528.
• 7. Smirnov, V.P. & Bersenev, V.A. Prospective transport system in the development of deep pits. In: Collection of Scientific Papers of the Institute of Mining, UrD of RAS "Geotechnical problems of integrated development of mineral resources". Ekaterinburg. 2004. No. 2 (92). P. 348-357.
• 8. Mariev, P.L. & Kuleshov, A.A & Egorov, A.N. & Ziryanov, I.V. Open pit vehicles: State and Prospects. St. Petersburg: Nauka. 2004.
• 9. Yakovlev, V.L & Tarasov, P.I. & Zhuravlev, A.G. & Furin, V.O. & Voroshilov, A.G. & Tarasov, A.P. & Fefelov, E.V. New look at the career road transport. Proceedings of Higher Education. Mining Journal. 2006. No 6. P. 97-107.