Application of the design-basis justification system for transport management in coal mines
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- Category: Electrical complexes and systems
- Last Updated on 16 July 2014
- Published on 21 March 2014
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Authors:
V.V. Slesarev, Dr. Sci. (Tech.), Professor, State Higher Educational Institution “National Mining University”, Head of the Department of System Analysis and Control, Dnepropetrovsk, Ukraine.
A.V. Malienko, State Higher Educational Institution “National Mining University”, Assistant Lecturer of the Department of System Analysis and Control, Dnepropetrovsk, Ukraine.
Abstract:
Purpose. To develop the method of calculation of mine transport system models in order to coordinate all parts of the network by carrying capacity and breakage face operation mode.
Methodology. The calculation of work of underground transport is provided by fair number of trolleys and their correct placing at loading and exchange points. The methods have been chosen considering the requirement to put into operation development and breakage faces, and transport chain as quickly as possible.
Findings. We have substantiated the transport vehicles distribution procedure by two methods: placing them on workplaces and by complete turn-around time of transport vehicles in a mine. The offered approach allows us to organize train schedule with movement in rapid sequence.
Originality. The method allows us to verify the work of transport system by its parameters and determine more rational organization of transportation.
Practical value. The method of calculation of mine transport system models allowing coordination of all parts of the network by carrying capacity and breakage face operation mode allows creating the programmatic complex for the dispatch control systems of coal mines.
References:
1. Слесарев В.В. Оптимальное распределение нагрузок на лавы при нестационарной добыче в условиях угольных шахт / В.В. Слесарев, М. Гаяда // Науковий вісник національного гірничого університету. – 2005. – № 3. – С. 72–73.
Slesarev, V.V. and Gayada, M. (2005), “Optimum distribution of loadings to lavas at non-stationary production in the conditions of coal mines”, Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, no. 3, Dnepropetrovsk, pp. 72–73.
2. Технология подземной разработки пластовых месторождений полезных ископаемых / [Д.В. Дорохов, В.И. Сивохин, И.С. Костюк, А.С. и др.]; под общ. ред. Д.В. Дорохова. – Донецк: ДонГТУ, 1997. – 344 с.
Dorokhov, D.V., Sivokhin. V.I., Kostyuk. I.S. and Podtikalov, A. (1997), Tehnologia podzemnoy razrabotki plastovykh mestorogdeniy poleznykh iskopaemykh: Uchebnik dla vuzov [The Technology of Underground Extraction of Layered Mineral Deposits], Donetsk, Ukraine.
3. Демин В.Ф. Экспертная система выбора оптимальной технологической схемы очистных работ / В.Ф. Демин, Д.В. Сон – Караганда: КарГТУ, 2006. – 193 с.
Demin, V.F., Son, D.V. (2006), Expertnaya sistema vybora optimalnoy tehnologicheskoy skhemy ochistnykh rabot [The Expert System for Selection of Optimum Process Flowsheet of Coal-Face Work], Karaganda, Russia..
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