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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-f3609820-816a-4e25-bab2-86f926b96b5e

Czasopismo

Poznan University of Technology Academic Journals. Electrical Engineering

Tytuł artykułu

Coupled dynamic FE analysis of permanent-magnet mechanical vibration energy harvesting converter

Autorzy Kulik, M.  Jagieła, M. 
Treść / Zawartość
Warianty tytułu
Konferencja Computer Applications in Electrical Engineering (18-19.04.2016 ; Poznań, Polska)
Języki publikacji EN
Abstrakty
EN The paper presents a coupled dynamic mechanical-electromagnetic finite element analysis of a vibration energy harvesting converter with permanent-magnet excitation. The system consists of a small, miliwatt power range, linear-motion permanent-magnet generator connected to a cantilever-beam spring element. The finite element equations derived for the mechanical part of the system according to the 1-D Timoshenko beam theory are coupled strongly with equations describing the 2-D distribution of magnetic field in the generator and those associated with the electric circuit. The time-stepping procedure based on the Crank-Nicolson discretisation schema is applied to the obtained system of differential-algebraic equations. The model is shown to provide satisfactory predictions of the system dynamic performance which is confirmed experimentally.
Słowa kluczowe
EN energy harvesting   coupled structural-electromagnetic analysis   finite element analysis  
Wydawca Wydawnictwo Politechniki Poznańskiej
Czasopismo Poznan University of Technology Academic Journals. Electrical Engineering
Rocznik 2016
Tom No. 85
Strony 245--254
Opis fizyczny Bibliogr. 11 poz., rys.
Twórcy
autor Kulik, M.
  • Opole University of Technology
autor Jagieła, M.
  • Opole University of Technology
Bibliografia
[1] Beeby S.P., Torah R.N., Tudor M.J., Glynne-Jones P., O'Donnell T., Saha C.R., Roy S., A micro electromagnetic generator for vibration energy harvesting, Journal of Micromechanics and Microengineering, Vol. 17, no. 7, 2007, pp. 1257-1265.
[2] Sato T., Watanabe K., Igarashi H., Coupled Analysis of Electromagnetic Vibration Energy Harvester With Nonlinear Oscillation, IEEE Transactions on magnetics, Vol. 50, no. 2, 2014, pp. 313-316.
[3] Rahman M.F.A., Kok S.L., Ali N.M., Hamzah R.A., Aziz K.A.A., Hybrid Vibration Energy Harvester Based On Piezoelectric and Electromagnetic Transduction Mechanism, IEEE Conf. Clean Energy and Technology, 2013, pp. 243-247.
[4] Lee J., Yoon S.W., Optimization of Magnet and Back-Iron Topologies in Electromagnetic Vibration Energy Harvesters, IEEE Trans. Magn., Vol. 51, no. 6, 2015, pp. 1-7.
[5] Qiu J., Wen Y., Li P., Chen H., Design and Optimization of a Tunable Magnetoelectric and Electromagnetic Hybrid Vibration-Based Generator for Wireless Sensor Networks, IEEE Trans. on magn., vol. 51, no. 11, paper no. 8203804, 2015.
[6] Liu X., Qiu J., Chen H., Xu X., Wen Y., Li P., Design and Optimization of an Electromagnetic Vibration Energy Harvester Using Dual Halbach Arrays, IEEE Trans. on magn., Vol. 51, no. 11, paper no. 8204204, 2015.
[7] Ferreira A.J.M., Solid mechanics and its applications Vol. 157: Matlab codes for finite element analysis, Springer, Netherlands, 2009.
[8] Lalanne C., Mechanical Vibration and Shock, Vol. 1: Sinusiodal Vibration, Taylor & Francis, New York, 1999.
[9] Demenko A., Sykulski J.K., Network equivalents of nodal and edge elements in electromagnetics, IEEE Trans. Magn., Vol. 38, no. 2, 2002, pp. 1305-1308.
[10] Demenko A., Mendrela E.A., Szelag W., Finite element analysis of saturation effects in tubular linear generator, The International Journal for Computation and Mathematics in Electrical and Electronic Engineering COMPEL, Vol. 25, no. 1, 2006, pp. 43-54.
[11] Buffa A., Maday Y., Rapetti F., Calculation of eddy currents in moving structures by a sliding mesh-finite element method, IEEE Trans. Magn., Vol. 36, 2000, pp. 1356-1359.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Kolekcja BazTech
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