Browse > Article
http://dx.doi.org/10.5370/JEET.2017.12.3.1073

Modelling of Magneto-Elastic Phenomena in Inductive Dynamic Drive  

Jankowski, Piotr (Dept. of Marine Electrical Power Engineering, Gdynia Maritime University)
Publication Information
Journal of Electrical Engineering and Technology / v.12, no.3, 2017 , pp. 1073-1081 More about this Journal
Abstract
Inductive dynamic drives (IDD) are ultra rapid actuators where the moving part (disc) is subjected to impulse force. This paper presents the second model of inductive dynamic drive - a mechanical model where analytic- numerical approach was applied. The magnetic pressure, which was determined on the basis of the results obtained in the electrodynamic model, becomes the input data for mechanical model. Research with application of the mechanical model is necessary in order to determine the proper disc oscillation frequency and to obtain the stress state control for drive elements to be designed. Also, the selection of drive parameters to keep the disc deformation insignificant (while oscillating) is a condition under which these models do not need to be coupled together.
Keywords
Actuator; Magneto-elastic vibrations; Stresses;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 A.M.S Atmadji, and Sloot J.G.J, "Hybrid Switching a Review of Current," In Proceedings of the International Conference on Energy Management and Power Delivery, EMPD 2: 683-688. doi:10.1109/EMPD.1998.702771.   DOI
2 D. D. Shipp, T. J. Dionise, V. Lorch, and W. G. MacFarlane, "Vacuum Circuit Breaker Transients During Switching of an LMF Transformer," IEEE Trans. Ind. Appl., vol. 48, no. 1, pp. 37-44, Jan./Feb., 2012.   DOI
3 J. Czucha, P. Jankowski, M. Pikoń, J. Zyborski, "Ultra rapid contact member with arcless current commutation" In Proceedings of the International Conference on Electrical Contacts, Electro-mechanical Components and their Applications ICECT'99," July 19-24 1999, Nagoya.
4 P. Jankowski "Analytic-numerical approach in modelling electrodynamic phenomena of inductive dynamic drive," Journal of the Chinese Institute of Engineers, 2015 http://dx.doi.org /10.1080/025338392015.1070688.
5 Xiu-xing Yin, Yong-gang Lin, Wei Li, Ya-jing Gu, Peng-fei Lei, Hong-wei Liu. "Sliding Mode Voltage Control Strategy For Capturing Maximum Wind Energy Based on Fuzzy Logic Control," International Journal of Electrical Power & Energy Systems. 2015, 70, 45-51.   DOI
6 Xiu-Xing Yin, Yong-Gang Lin, Wei Li, Hong-Wei Liu, and Ya-Jing Gu. Fuzzy-logic "Sliding-Mode Control Strategy for Extracting Maximum Wind Power," IEEE Transactions on Energy Conversion. 2015, 30(4), 1267-1278.   DOI
7 P. Jankowski, J. Mindykowski., M. Woloszyn.: "Effect of Power Frequency on the Stress State of Disc Actuator," International Journal of Applied Electromagnetics and Mechanics Volume 45, Numbers 1-4 IOS Press doi:10.3233/JAE-141888.   DOI
8 J. S. Ro, S. K. Hong, and H. K. Jung, "Characteristic Analysis and Design of a Novel Permanent Magnetic Actuator for a Vacuum Circuit Breaker," Electric Power Applications, IET, vol. 7, no. 2, pp. 87-96, Feb., 2013.   DOI
9 Kim Won-Ho, "A Stress Analysis Method for the Rotor Design of an IPMSM Considering Radial Force," Journal of Electrical Engineering & Technology Vol.; 11(2): 377-382, 2016.   DOI
10 Lee Gyeong-Deuk, Kim Gyu-Tak "The Equilibrium Design of Radial Magnetic Force for Reduction" of Vibration in IPM Type BLDC Motor, Journal of Electrical Engineering & Technology Vol. 9, No. 3, pp. 882-887, 2014   DOI
11 S. Timoshenko and S. Wojnowski, Theory of plates and shells. New York and London: Mcgraw-Hill, 1959.
12 P. Mysiak, "A 24-pulse Diode Rectifier with Coupled Three-Phase Reactor," Journal of the Chinese Institute of Engineers, 2007 30 (7): 1189-1204. doi:10.1080/02533839.2007.9671347.   DOI
13 S. Basu, and K.D. Srivastava, "Analysis of A Fast Acting Circuit Breaker Mechanism Part I: Electrical Aspects," Transaction Power Apparatus and Systems 1972, PAS-91 (3): 1197-1203. doi:10.1109/TPAS.1972.293477.   DOI
14 S Basu, and K.D. Srivastava, "Analysis of A Fast Acting Circuit Breaker mechanism Part II: Thermal and Mechanical Aspects," Transaction Power Apparatus and Systems, 1972 PAS-91 (3): 1203-1211. doi:10.1109/TPAS.1972.293478.   DOI