ArticleName |
A computer model of the failure and recovery processes of ore grinding system equipment |
ArticleAuthorData |
State Engineering University of Armenia, Kapan Branch, Kapan, Republic of Armenia:
S. Sh. Balasanyan, Director, e-mail: suni-com@syunik.am |
Abstract |
This article considers a formalization process procedure of changing the work capacity of ore grinding system (OGS) equipment. The working time allocation laws between failures and recoveries of the equipment were identified on the basis of a statistical data of the failure and recovery of OGS equipment on Zangezur Copper Molybdenum Combine (ZCMC). The working time between an equipment failures was allocated according to the exponential and Rayleigh laws, and the recovery time was subject to the lognormal and Weibull laws. Using the proposed formalizing procedure, a computer model of the failure and recovery process of OGS was developed according to the identified allocation laws. This model was created on a modular approach, which ensures its compactness and allows to consider the modified changes of the quantity of OGS devices easily. The verification and validation of the developed model were carried out, using the well-known methods. Taking into account the reliability of ZCMC equipment, the considered model was included in a computer model for efficiency rating of the functioning of the OGS. As a result of the simulation experiments, which were held on this model, the following application problems were solved: – evaluation of the degradation degree of OGS functioning, due to the unreliability of the equipment; – evaluation of equipment influence coefficients on system functioning; – the choice of the optimal structure of backup links between shredders and a rational strategy for their usage; – definition of an optimum way of reservation of groundwater pumps and the optimal service discipline of the failed equipment. |
References |
1. Blatov I. A. et al. Gornyy vestnik – Mining bulletin. 1999. No. 2. pp. 58–62. 2. Hulbert D. G. Simulation, Control, Modeling of Mineral Processing. Proceedings of XXII International Mineral Processing Congress. Cape Tawn, South Africa, 2003. pp. 116–126. 3. Boyarskikh G. A., Boyarskikh K. G. Nadezhnost gornykh mashin i oborudovaniya (Reliability of mining machines and equipment). Ekaterinburg : Ural Federal University named after the first President of Russia B. N.Yeltsin, 2009. 116 p. 4. Lisnianski A., Levitin G. Multi-state system reliability. Assessment, optimization, applications. London : World Scientific, 2003. 376 p. 5. Lisnianski A. Multi-state system reliability measures: extension and computation procedure. Proceedings of the International symposium on stochastic models in reability, safety, security and logistics. Beer Sheva (Israel), 2005. pp. 230–233. 6. Handbook of reliability engineering. Under the editorship of I. A. Ushakov. New York : John Willey & Sons, 1994. 704 p. 7. Balasanyan S. Sh. Ob odnom metode stratifitsirovannoy formalizatsii slozhnykh tekhnologicheskikh sistem s uchetom nadezhnosti elementov (About a single method of a stratified formalization of complex technological systems, taking into account the reliability of elements). Materialy Mezhdunarodnoy nauchnoy konferentsii “Modelirovanie–2010” (Materials of an International Scientific Conference “Modelling–2010”). Kiev, 2010. Vol. 1. pp. 143–150. 8. Shennon R. Imitatsionnoe modelirovanie sistem — iskusstvo i nauka (Imitation modelling of systems : proficiency and science). Moscow : Mir, 1978. 418 p. 9. Averill M. Law, W. David Kelton. Imitatsionnoe modelirovanie (Simulation modeling). Saint Petersburg : Piter, 2004. 847 p. 10. Emelyanov V. V., Asinovskiy S. I. Imitatsionnoe modelirovanie sistem (Simulation modelling of systems). Moscow : N. E. Bauman Moscow State Engineering University Publ., 2009. 584 p. 11. Braunli K. A. Statisticheskaya teoriya i metodologiya v nauke i tekhnike (Statistics theory and methodology in science and technology). Moscow : Nauka, 1974. 408 p. 12. Balasanyan S. Sh. Izvestiya Tomskogo Politekhnicheskogo Universiteta — Bulletin of the Tomsk Polytechnic University. 2011. Vol. 318, No. 5. pp. 25–30. |