Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The study investigates an energy harvesting system utilising rotary motion. The system has three components: a rotary MR damper to vary the damping characteristics, a rotary power generator (energy extractor) producing electrical power, and a conditioning electronics unit to interface directly with the damper and the generator. The objective of the study is to examine the system performance through experiments. The paper outlines the structure of the damper and the generator, provides selected results of examination of the system components and the whole system under idle run and under load for the assumed speed range. The results demonstrate that the system is adaptable to external excitations, does not require an extra power supply and provides a smart solution with potential applications to rotary motion control.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
679--690
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
- AGH University of Science and Technology, Department of Process Control, Kraków, Poland
Bibliografia
- 1. Avadhany S., Abel P., Tarasov V., Anderson Z., 2008, Regenerative shock absorber, US Patent 8376100
- 2. Chen C., Liao W.H., 2012, A self-sensing magnetorheological damper with power generation, Smart Materials and Structures, 21, 025014
- 3. Cho S.W., Jung H.J., Lee I.W., 2007, Feasibility study of smart passive control system equipped with electromagnetic induction device, Smart Materials and Structures, 16, 2323-2329
- 4. Choi Y.T., Werely N.M., 2009, Self-powered magnetorhelogical dampers, Journal of Vibration and Acoustics, 131, 44-50
- 5. Hong J.H., Choi K.M., Lee J.H., Oh J.W., Lee I.W., 2007, Experimental study on smart passive system based on MR damper, Proceedings of the 18th KKCNN Symposium on Civil Engineering, Taiwan
- 6. http://sine.ni.com; CompacDaQ Technical Information
- 7. http://www.baldormotion.com; Mint Workbench Technical Information
- 8. http://www.allegromicro.com; Allegro MicroSystems LLC, ACS712 Hall-Effect Current Sensor IC, Technical Information
- 9. http://www.basonetic.com; MR-Fluid BasoneticOR 2040 Technical Information
- 10. http://www.nxp.com/documents/data sheet/PMEG3050EP.pdf
- 11. Jung H.J., Jang D.D., Koo J.H., Cho S.W., 2010, Experimental evaluation of a self-sensing capability of an electromagnetic induction system designed for MR dampers, Journal of Intelligent Material Systems and Structures, 21, 837-836
- 12. Li Z., Zhuo L., Kuang J., Luhrs G., 2013, Energy-harvesting shock absorber with a mechanical motion rectifier, Smart Materials and Structures, 22, 028008
- 13. Liao W.H., Chen C., 2012, Self-powered, self-sensing magnetorheological dampers, US Patent Application No: 2012/0031,719
- 14. Microchip Technology Inc., PIC18F47J53 Family Data Sheet, 2010
- 15. Opera-3d version 15R2, User Guide, Cobham Technical Services, Vector Fields Software, 2011
- 16. Priya S., Inman D., 2009, Energy Harvesting Technologies, Springer Science+Business Media
- 17. Sapiński B., 2011, Experimental study of a self-powered and sensing MR damper-based vibration control system, Smart Materials and Structures, 20, 105007
- 18. Sapinski B., 2014, Energy harvesting MR linear damper: prototyping and testing, Smart Materials and Structures, 23, 035021
- 19. Scruggs J.T., Lindner D., 1999, Active energy control in civil structure, Proceedings of SPIE Conference on Smart Systems for Bridges, Structures and Highways
- 20. Wang D.H., Wang T., 2010, An integrated relative displacement self-sensing magnetorheological damper, Smart Materials and Structures, 19, 105008
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniajacą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c1d490d1-09a9-4bc7-9bbf-64302cac00be