Compare the energy harvesting from beam vibration between 1. Piezoelectric beam [1, 2] 2. Electro magnet beam [3] 3. H shaped beam[4] Or between different combination of Piezoelectric Different placement of Piezoelectric [2, 5] Or Vibrational energy absorption [6-9] 1. Zhu, Y. and J. Zu, A magnet-induced buckled-beam piezoelectric generator for wideband vibration-based energy harvesting. Journal of Intelligent Material Systems and Structures, 2014. 25(14): p. 1890-1901. 2. Sodano, H.A., G. Park, and D. Inman, Estimation of electric charge output for piezoelectric energy harvesting. Strain, 2004. 40(2): p. 49-58. 3. Wickenheiser, A. and E. Garcia, Broadband vibration-based energy harvesting improvement through frequency up-conversion by magnetic excitation. Smart materials and Structures, 2010. 19(6): p. 065020. 4. Boisseau, S., G. Despesse, and B.A. Seddik, Nonlinear H-Shaped Springs to Improve Eﬃciency of Vibration Energy Harvesters. Journal of Applied Mechanics, 2013. 80(6): p. 061013-061013. 5. Adhikari, S., M. Friswell, and D. Inman, Piezoelectric energy harvesting from broadband random vibrations. Smart Materials and Structures, 2009. 18(11): p. 115005. 6. Kulkarni, S., et al., Design, fabrication and test of integrated micro-scale vibration-based electromagnetic generator. Sensors and Actuators A: Physical, 2008. 145: p. 336-342. 7. Ghosh, A. and B. Basu, A closed-form optimal tuning criterion for TMD in damped structures. Structural Control and Health Monitoring, 2007. 14(4): p. 681-692. 8. Ali, S.F. and S. Adhikari, Energy Harvesting Dynamic Vibration Absorbers. Journal of Applied Mechanics, 2013. 80(4): p. 041004-041004. 9. Tang, X. and L. Zuo, Enhanced vibration energy harvesting using dual-mass systems. Journal of Sound and Vibration, 2011. 330(21): p. 5199- 5209.

Discussion Doc

Download DOCX Report

Upload
arnab-banerjee
View
214
Download
0

Embed Size (px)

DESCRIPTION

Discuss

Citation preview

1.Zhu, Y. and J. Zu, A magnet-induced buckled-beam piezoelectric generator for wideband vibration-based energy harvesting. Journal of Intelligent Material Systems and Structures, 2014. 25(14): p. 1890-1901.2.Sodano, H.A., G. Park, and D. Inman, Estimation of electric charge output for piezoelectric energy harvesting. Strain, 2004. 40(2): p. 49-58.3.Wickenheiser, A. and E. Garcia, Broadband vibration-based energy harvesting improvement through frequency up-conversion by magnetic excitation. Smart materials and Structures, 2010. 19(6): p. 065020.4.Boisseau, S., G. Despesse, and B.A. Seddik, Nonlinear H-Shaped Springs to Improve Efficiency of Vibration Energy Harvesters. Journal of Applied Mechanics, 2013. 80(6): p. 061013-061013.5.Adhikari, S., M. Friswell, and D. Inman, Piezoelectric energy harvesting from broadband random vibrations. Smart Materials and Structures, 2009. 18(11): p. 115005.6.Kulkarni, S., et al., Design, fabrication and test of integrated micro-scale vibration-based electromagnetic generator. Sensors and Actuators A: Physical, 2008. 145: p. 336-342.7.Ghosh, A. and B. Basu, A closed-form optimal tuning criterion for TMD in damped structures. Structural Control and Health Monitoring, 2007. 14(4): p. 681-692.8.Ali, S.F. and S. Adhikari, Energy Harvesting Dynamic Vibration Absorbers. Journal of Applied Mechanics, 2013. 80(4): p. 041004-041004.9.Tang, X. and L. Zuo, Enhanced vibration energy harvesting using dual-mass systems. Journal of Sound and Vibration, 2011. 330(21): p. 5199-5209.