Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system
Condition monitoring systems (CMS) play a significant role in enhancing performance and lowering failure losses in any industrial setup. Appropriate wireless sensor nodes (WSNs) used in CMS will permit the user to check the live status of machines, however, these WSNs are facing the periodic replace...
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my.utm.1036372023-11-23T08:08:36Z http://eprints.utm.my/103637/ Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system Ahmad, Iftikhar Lim, Meng Hee Abdelrhman, Ahmed M. Imam, Syed Asad Leong, M. S. TJ Mechanical engineering and machinery Condition monitoring systems (CMS) play a significant role in enhancing performance and lowering failure losses in any industrial setup. Appropriate wireless sensor nodes (WSNs) used in CMS will permit the user to check the live status of machines, however, these WSNs are facing the periodic replacement and recharging problems of batteries. Energy harvesters, used to scavenge ambient energy, are viable alternatives to batteries for achieving the self-sustained long-term operation of WSNs. Ambient vibration and acoustic energies are abundantly available in the industrial environment. The currently available energy harvesters are utilizing only vibration or acoustic energy, however, research on harvesters using both vibration and acoustic sources is missing. We present a new hybrid vibro-acoustic energy harvester (HVA-EH) using electromagnetic transduction, where the power to the WSNs can be harvested from both vibration and acoustic sources simultaneously. The architecture, working principle, fabrication, and experimentation of the HVA-EH are discussed. The HVA-EH was operated at a low vibration and acoustic frequencies and low acceleration and sound pressure levels (SPL). At matching impedance, the maximum power generated by the HVA-EH under vibration energy at zero SPL is 372 µW at acceleration level of 0.3 g and under acoustic energy at zero acceleration level is 271 µW under SPL of 130 dB. While, under a hybrid environment, the HVA-EH generates maximum power of 153 µW, 361 µW, and 656 µW at vibration levels of 0.1 g, 0.2 g, and 0.3 g respectively, under SPL of 130 dB at 2nd acoustic mode (495 Hz). The results are promising and the ability of harvesting low-frequency sound and vibration simultaneously makes the HVA-EH an energy efficient system. Furthermore, this study demonstrates the possibility of new solutions to the problems of WSNs utilizing both sound and vibration energy resources. Elsevier Ltd 2022 Article PeerReviewed Ahmad, Iftikhar and Lim, Meng Hee and Abdelrhman, Ahmed M. and Imam, Syed Asad and Leong, M. S. (2022) Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system. Energy Conversion and Management, 258 (NA). pp. 1-11. ISSN 0196-8904 http://dx.doi.org/10.1016/j.enconman.2022.115443 DOI : 10.1016/j.enconman.2022.115443 |
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TJ Mechanical engineering and machinery Ahmad, Iftikhar Lim, Meng Hee Abdelrhman, Ahmed M. Imam, Syed Asad Leong, M. S. Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| description |
Condition monitoring systems (CMS) play a significant role in enhancing performance and lowering failure losses in any industrial setup. Appropriate wireless sensor nodes (WSNs) used in CMS will permit the user to check the live status of machines, however, these WSNs are facing the periodic replacement and recharging problems of batteries. Energy harvesters, used to scavenge ambient energy, are viable alternatives to batteries for achieving the self-sustained long-term operation of WSNs. Ambient vibration and acoustic energies are abundantly available in the industrial environment. The currently available energy harvesters are utilizing only vibration or acoustic energy, however, research on harvesters using both vibration and acoustic sources is missing. We present a new hybrid vibro-acoustic energy harvester (HVA-EH) using electromagnetic transduction, where the power to the WSNs can be harvested from both vibration and acoustic sources simultaneously. The architecture, working principle, fabrication, and experimentation of the HVA-EH are discussed. The HVA-EH was operated at a low vibration and acoustic frequencies and low acceleration and sound pressure levels (SPL). At matching impedance, the maximum power generated by the HVA-EH under vibration energy at zero SPL is 372 µW at acceleration level of 0.3 g and under acoustic energy at zero acceleration level is 271 µW under SPL of 130 dB. While, under a hybrid environment, the HVA-EH generates maximum power of 153 µW, 361 µW, and 656 µW at vibration levels of 0.1 g, 0.2 g, and 0.3 g respectively, under SPL of 130 dB at 2nd acoustic mode (495 Hz). The results are promising and the ability of harvesting low-frequency sound and vibration simultaneously makes the HVA-EH an energy efficient system. Furthermore, this study demonstrates the possibility of new solutions to the problems of WSNs utilizing both sound and vibration energy resources. |
| format |
Article |
| author |
Ahmad, Iftikhar Lim, Meng Hee Abdelrhman, Ahmed M. Imam, Syed Asad Leong, M. S. |
| author_facet |
Ahmad, Iftikhar Lim, Meng Hee Abdelrhman, Ahmed M. Imam, Syed Asad Leong, M. S. |
| author_sort |
Ahmad, Iftikhar |
| title |
Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| title_short |
Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| title_full |
Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| title_fullStr |
Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| title_full_unstemmed |
Hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| title_sort |
hybrid vibro-acoustic energy harvesting using electromagnetic transduction for autonomous condition monitoring system |
| publisher |
Elsevier Ltd |
| publishDate |
2022 |
| url |
http://eprints.utm.my/103637/ http://dx.doi.org/10.1016/j.enconman.2022.115443 |
| _version_ |
1783876393805807616 |
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13.160551 |