Dynamic optimization of a mine winder acceleration mode

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Authors:

V.S.Loveikin, Dr. Sc. (Tech.), Prof., National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.

Yu.О.Romasevych, Dr. Sc. (Tech.), Assoc. Prof., National University of Life and Environmental Sciences of Ukraine, Kyiv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.; This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract:

Purpose. Improving the mine winder operation efficiency by the acceleration mode optimization and study of an optimezed mode using energetic and dynamic criteria.

Methodology. The methods of numerical integration of mathematical modelling and non-linear differential equations were used to study the dynamic and energetic indicators of the mine winder operation. The approximate solution of the issue of optimal motion control of mine winders concerning the acceleration mode was found using the collocation method. Assessment of impact of the optimal machine motion law parameters on the dynamic and energetic indicators of its operation was carried out through the implementation of a series of computer aided analysis.

Findings. It was found that peak loads and significant values of power consumption occur in machines components during the rheostat launch of mine winder asynchronous drive when switching the rotor resistances. Regularities of influence of machine acceleration optimal duration and ratio, which determines the importance of the respective components in the structure optimization criterion, on estimated energetic and dynamic indicators of machine acceleration mode were revealed.

Originality. An optimal acceleration mode of a mine winder was synthesized by the complex integral criterion using the direct variational method. The obtained optimal motion mode is described by continuously differentiated function that reduces the dynamic loads in machine components and improves the energetic characteristics of its drive.

Practical value. The mode duration rational values and the ratio, which determines the role of the components in the optimization criterion structure, were found on the basis of dynamic and energetic analysis of mine winder optimized acceleration mode. This allows approaching reasonably to the implementation of the found mine winder acceleration mode that relies on frequency control of asynchronous electric drive of a machine.

References.

1. Stepanov, A.G., 2013. Theoretical basis of the mine hoist dynamics. Mining Machinery and Electromechanics, 7, pp. 31‒40.

2. Osipova, T.N., 2014. To a question about the dynamics and optimization of mine hoists. Mechanical Engineering, 13, pp. 74‒81.

3. Dagang, W., Dekun, Z.,  Zefeng, Z. and Shirong, G., 2012. Effect of various kinematic parameters of mine hoist on fretting parameters of hoisting rope and a new fretting fatigue test. Engineering Failure Analysis, 22, pp. 92–112.

4. Dagang, W., Dekun, Z. and Shirong, G., 2014. Effect of terminal mass on fretting and fatigue parameters of a hoisting rope during a lifting cycle in coal mine. Engineering Failure Analysis, 36, pp. 407–422.

5. Jiannan, Y. and Xingming, X., 2016. Effect of hoisting load on transverse vibrations of hoisting catenaries in floor type multirope friction mine hoists. Shock and Vibration, 36, pp. 1–15.

6. Pukach, P.Ya. and Kuzo, I.V., 2013. Nonlinear transverse vibrations semibounded rope considering resistance. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 3, pp. 82‒86.

7. Ilin, S.R., Trifanov, G.D. and Vorobel, S.V., 2011. Complex experimental studies of the dynamics of ore-lifting trunk. Mining Machinery and Electromechanics, 5, pp. 30‒35.

8. Kyrychenko, Y., Samusia, V. and Kyrychenko, V., 2012. Software development for the automatic control system of deep-water hydrohoist. In: Geomechanical Processes during Underground Mining, pp. 81–86.

9. Popov, Yu.P., Kudriavtsev, S.V. and Stepanov, S.V., 2015. Modernization of the braking system of mine hoisting plant. Mining informational and analytical bulletin (scientific and technical journal), 9, pp. 195‒197.

10. Loveikin, V.S. and Romasevych, Yu.O., 2016. Dynamics and optimization of movement modes of brige cranes. Kyiv: TsP “KOMPRINT”.

11. Loveikin, V.S., Chovniuk, Yu.V. and Liashko, A.P., 2014. The crane vibrating systems controlled by mechatronic devices with magnetogeological fluid: the nonlinear mathematical model of behavior and optimization of work regimes. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 6, pp. 97‒102.

12. Eduardo, S. de C., 2015. Variational methods for engineers with Matlab. London, UK; Hoboken, USA.

13. Bronshtein, I.N. and Semendyayev, K.A., 2013. Handbook of mathematics. Reprint of the third edition. Springer Science & Business Media.

14. Loveikin, V.S., Romasevich, Yu.O. and Loveikin, Yu.V., 2012. Analysis of the direct variational methods for solving optimal control problems. Proceedings of the National University Lviv Polytechnic. Optimization of production processes and technical control in machine and instrument, 729, pp. 70‒79.

15. FR-E700: frequency inverter instruction manual, 2011. Art. no.: 213994. Version D. Mitsubishi Electric Industrial Automation.

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ISSN (print) 2071-2227,
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Journal was registered by Ministry of Justice of Ukraine.
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