Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review
Energy harvesting is crucial for sustainable power generation within structural health monitoring systems for infrastructures, as it involves converting ambient energy sources into usable power, reducing reliance on fossil fuels, and minimizing environmental impact. This technology is valuable for c...
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Elsevier
2025-06-01
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| Series: | Results in Engineering |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2590123025006991 |
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| author | Amin Moslemi Maria Rashidi Ali Matin Nazar Pejman Sharafi |
| author_facet | Amin Moslemi Maria Rashidi Ali Matin Nazar Pejman Sharafi |
| author_sort | Amin Moslemi |
| collection | DOAJ |
| description | Energy harvesting is crucial for sustainable power generation within structural health monitoring systems for infrastructures, as it involves converting ambient energy sources into usable power, reducing reliance on fossil fuels, and minimizing environmental impact. This technology is valuable for creating self-sustaining systems in remote or hard-to-access bridge locations. Additionally, energy harvesting from bridges offers significant economic benefits by reducing operational costs and enabling continuous structural health monitoring, making it a practical solution for bridge management. This paper examines vibration-based energy harvesting technologies for bridges, assessing their applicability and effectiveness. A systematic literature review using Scopus explored the origins, concepts, and technologies associated with energy harvesting. The review highlights the significance of vibration-based energy harvesting, particularly piezoelectric systems, due to the persistent vibrations experienced by bridges from environmental conditions. Recent developments in vibration energy harvesting systems are categorized and summarized based on bridge sources, including vibration, wind-induced vibration, and traffic-induced vibration. Key challenges identified include the need for complex designs and the limited efficiency of certain technologies under low-frequency conditions. The paper further outlines critical future research directions aimed at overcoming these limitations and significantly advancing the field of energy harvesting for bridge applications. The research highlights that novel triboelectric nanogenerator designs demonstrated promising energy harvesting capabilities from low-frequency bridge vibrations such as innovations including nonlinear oscillator configurations, and hybrid piezoelectric-triboelectric systems. Moreover, by carefully designing piezoelectric energy harvesters with techniques like nonlinear dynamics and innovative geometries, it's possible to significantly improve energy capture from low-frequency, multi-directional bridge vibrations. In addition, the Integration of wind-induced vibration energy harvesting, and traffic-induced vibration are promising technologies for sustainable infrastructure monitoring. The review shows that vortex-induced vibration for its high effectivity in low wind speed conditions and galloping, despite requiring higher wind speeds, are the most efficient techniques in this area. This study aims to provide valuable insights for researchers and engineers to utilize these technologies in bridge infrastructure, thereby improving energy efficiency and sustainability. |
| format | Article |
| id | doaj-art-5e7b09f66e174006ade8cfc88d2a3194 |
| institution | DOAJ |
| issn | 2590-1230 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Results in Engineering |
| spelling | doaj-art-5e7b09f66e174006ade8cfc88d2a31942025-08-20T03:02:37ZengElsevierResults in Engineering2590-12302025-06-012610462210.1016/j.rineng.2025.104622Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic reviewAmin Moslemi0Maria Rashidi1Ali Matin Nazar2Pejman Sharafi3Centre for Infrastructure Engineering, School of Engineering, Western Sydney University, Sydney, NSW, AustraliaCentre for Infrastructure Engineering, School of Engineering, Western Sydney University, Sydney, NSW, Australia; Corresponding author.Zhejiang University/University of Illinois at Urbana-Champaign Institute, Zhejiang University, Haining, Zhejinng 314400, ChinaCentre for Infrastructure Engineering, School of Engineering, Western Sydney University, Sydney, NSW, AustraliaEnergy harvesting is crucial for sustainable power generation within structural health monitoring systems for infrastructures, as it involves converting ambient energy sources into usable power, reducing reliance on fossil fuels, and minimizing environmental impact. This technology is valuable for creating self-sustaining systems in remote or hard-to-access bridge locations. Additionally, energy harvesting from bridges offers significant economic benefits by reducing operational costs and enabling continuous structural health monitoring, making it a practical solution for bridge management. This paper examines vibration-based energy harvesting technologies for bridges, assessing their applicability and effectiveness. A systematic literature review using Scopus explored the origins, concepts, and technologies associated with energy harvesting. The review highlights the significance of vibration-based energy harvesting, particularly piezoelectric systems, due to the persistent vibrations experienced by bridges from environmental conditions. Recent developments in vibration energy harvesting systems are categorized and summarized based on bridge sources, including vibration, wind-induced vibration, and traffic-induced vibration. Key challenges identified include the need for complex designs and the limited efficiency of certain technologies under low-frequency conditions. The paper further outlines critical future research directions aimed at overcoming these limitations and significantly advancing the field of energy harvesting for bridge applications. The research highlights that novel triboelectric nanogenerator designs demonstrated promising energy harvesting capabilities from low-frequency bridge vibrations such as innovations including nonlinear oscillator configurations, and hybrid piezoelectric-triboelectric systems. Moreover, by carefully designing piezoelectric energy harvesters with techniques like nonlinear dynamics and innovative geometries, it's possible to significantly improve energy capture from low-frequency, multi-directional bridge vibrations. In addition, the Integration of wind-induced vibration energy harvesting, and traffic-induced vibration are promising technologies for sustainable infrastructure monitoring. The review shows that vortex-induced vibration for its high effectivity in low wind speed conditions and galloping, despite requiring higher wind speeds, are the most efficient techniques in this area. This study aims to provide valuable insights for researchers and engineers to utilize these technologies in bridge infrastructure, thereby improving energy efficiency and sustainability.http://www.sciencedirect.com/science/article/pii/S2590123025006991Energy harvestingBridgeLow frequencyPiezoelectric nanogeneratorsTriboelectric nanogeneratorsEnvironmental Vibrations |
| spellingShingle | Amin Moslemi Maria Rashidi Ali Matin Nazar Pejman Sharafi Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review Results in Engineering Energy harvesting Bridge Low frequency Piezoelectric nanogenerators Triboelectric nanogenerators Environmental Vibrations |
| title | Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review |
| title_full | Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review |
| title_fullStr | Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review |
| title_full_unstemmed | Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review |
| title_short | Advancements in vibration-based energy harvesting systems for bridges: A literature and systematic review |
| title_sort | advancements in vibration based energy harvesting systems for bridges a literature and systematic review |
| topic | Energy harvesting Bridge Low frequency Piezoelectric nanogenerators Triboelectric nanogenerators Environmental Vibrations |
| url | http://www.sciencedirect.com/science/article/pii/S2590123025006991 |
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