Corrugation-like Triboelectric Nanogenerators Integrated Buoys for Wave Energy Harvesting
Marine buoys, as the nodes of the marine monitoring system, play a vital role in monitoring marine activities, which can collect hydro-meteorological information for marine scientific research, offshore oil development, and construction of marine ports. However, sustainable and cost-effective power...
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| Published in | Journal of physics. Conference series Vol. 2592; no. 1; pp. 12052 - 12057 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Bristol
IOP Publishing
01.09.2023
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| Abstract | Marine buoys, as the nodes of the marine monitoring system, play a vital role in monitoring marine activities, which can collect hydro-meteorological information for marine scientific research, offshore oil development, and construction of marine ports. However, sustainable and cost-effective power supply for marine buoys equipped with electrical devices is still a challenge. In this paper, the corrugation-like triboelectric nanogenerator (C-TENG) integrated with marine buoys was proposed, aiming at harvesting wave energy and powering marine buoys. The C-TENG consisting of corrugated plates, corrugation-like channels, aluminum electrodes, barrier sheets, flat plates, and polytetrafluoroethylene (PTFE) pellets, was capable of effectively converting the energy harnessed from waves into electricity. As a result of the ocean wave’s excitement, the sliding contact between the PTFE pellets and the aluminum electrode produced electron transfer via the triboelectrification effect and electrostatic induction. With the unique corrugation-like channels, the output of the devices was in the same phase, avoiding the electrical loss resulting from rectification. Furthermore, the power density of the 5 layers parallel-connected C-TENG units reached 21.95 W/m
3
, which was approximately 300% higher than the previous tower-like TENG. The experimental results prove that the proposed C-TENG may provide a possible solution for wave energy harvesting and marine buoy powering. |
|---|---|
| AbstractList | Marine buoys, as the nodes of the marine monitoring system, play a vital role in monitoring marine activities, which can collect hydro-meteorological information for marine scientific research, offshore oil development, and construction of marine ports. However, sustainable and cost-effective power supply for marine buoys equipped with electrical devices is still a challenge. In this paper, the corrugation-like triboelectric nanogenerator (C-TENG) integrated with marine buoys was proposed, aiming at harvesting wave energy and powering marine buoys. The C-TENG consisting of corrugated plates, corrugation-like channels, aluminum electrodes, barrier sheets, flat plates, and polytetrafluoroethylene (PTFE) pellets, was capable of effectively converting the energy harnessed from waves into electricity. As a result of the ocean wave’s excitement, the sliding contact between the PTFE pellets and the aluminum electrode produced electron transfer via the triboelectrification effect and electrostatic induction. With the unique corrugation-like channels, the output of the devices was in the same phase, avoiding the electrical loss resulting from rectification. Furthermore, the power density of the 5 layers parallel-connected C-TENG units reached 21.95 W/m
3
, which was approximately 300% higher than the previous tower-like TENG. The experimental results prove that the proposed C-TENG may provide a possible solution for wave energy harvesting and marine buoy powering. Marine buoys, as the nodes of the marine monitoring system, play a vital role in monitoring marine activities, which can collect hydro-meteorological information for marine scientific research, offshore oil development, and construction of marine ports. However, sustainable and cost-effective power supply for marine buoys equipped with electrical devices is still a challenge. In this paper, the corrugation-like triboelectric nanogenerator (C-TENG) integrated with marine buoys was proposed, aiming at harvesting wave energy and powering marine buoys. The C-TENG consisting of corrugated plates, corrugation-like channels, aluminum electrodes, barrier sheets, flat plates, and polytetrafluoroethylene (PTFE) pellets, was capable of effectively converting the energy harnessed from waves into electricity. As a result of the ocean wave’s excitement, the sliding contact between the PTFE pellets and the aluminum electrode produced electron transfer via the triboelectrification effect and electrostatic induction. With the unique corrugation-like channels, the output of the devices was in the same phase, avoiding the electrical loss resulting from rectification. Furthermore, the power density of the 5 layers parallel-connected C-TENG units reached 21.95 W/m3, which was approximately 300% higher than the previous tower-like TENG. The experimental results prove that the proposed C-TENG may provide a possible solution for wave energy harvesting and marine buoy powering. |
| Author | Guan, Tangzhen Zhu, Chuanqing Wang, Xinyu Xu, Ruijiang Zheng, Jiaxi Xu, Minyi Wen, Chengxuan Wang, Weichen Zou, Tao Wang, Hao |
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| Cites_doi | 10.1016/j.nanoen.2018.03.062 10.1016/j.nanoen.2021.105920 10.3390/en14123414 10.1016/j.rser.2015.12.284 10.1016/j.teac.2022.e00154 10.1016/j.nanoen.2017.06.035 10.1007/s40722-022-00240-3 10.1109/MIE.2012.2193290 |
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| References | Wang (JPCS_2592_1_012052bib8) 2019; 9 McLeod (JPCS_2592_1_012052bib5) 2022; 8 Xu (JPCS_2592_1_012052bib12) 2019; 13 Zhang (JPCS_2592_1_012052bib11) 2018; 48 Uihlein (JPCS_2592_1_012052bib7) 2016; 58 Zhu (JPCS_2592_1_012052bib9) 2020; 2 Przybysz (JPCS_2592_1_012052bib3) 2020 Wang (JPCS_2592_1_012052bib13) 2021; 84 Chiba (JPCS_2592_1_012052bib4) 2021; 14 Czech (JPCS_2592_1_012052bib6) 2012; 6 Wang (JPCS_2592_1_012052bib10) 2017; 39 Yoo (JPCS_2592_1_012052bib1) 2019; 13 da Costa Filho (JPCS_2592_1_012052bib2) 2022; 33 |
| References_xml | – volume: 48 start-page: 421 year: 2018 ident: JPCS_2592_1_012052bib11 article-title: Rationally designed sea snake structure based triboelectric nanogenerators for effectively and efficiently harvesting ocean wave energy with minimized water screening effect[J] publication-title: Nano Energy doi: 10.1016/j.nanoen.2018.03.062 – volume: 2 year: 2020 ident: JPCS_2592_1_012052bib9 article-title: Progress in TENG technology—A journey from energy harvesting to nanoenergy and nanosystem[J] publication-title: Eco Mat – start-page: 1 year: 2020 ident: JPCS_2592_1_012052bib3 – volume: 84 year: 2021 ident: JPCS_2592_1_012052bib13 article-title: Sandwich-like triboelectric nanogenerators integrated self-powered buoys for navigation safety[J] publication-title: Nano Energy doi: 10.1016/j.nanoen.2021.105920 – volume: 14 start-page: 3414 year: 2021 ident: JPCS_2592_1_012052bib4 article-title: The possibility of a high-efficiency wave power generation system using dielectric elastomers[J] publication-title: Energies doi: 10.3390/en14123414 – volume: 58 start-page: 1070 year: 2016 ident: JPCS_2592_1_012052bib7 article-title: Wave and tidal current energy-A review of the current state of research beyond technology[J] publication-title: Renewable and Sustainable Energy Reviews doi: 10.1016/j.rser.2015.12.284 – volume: 33 year: 2022 ident: JPCS_2592_1_012052bib2 article-title: Environmental monitoring approaches for the detection of organic contaminants in marine environments: a critical review[J] publication-title: Trends in Environmental Analytical Chemistry doi: 10.1016/j.teac.2022.e00154 – volume: 39 start-page: 9 year: 2017 ident: JPCS_2592_1_012052bib10 article-title: Toward the blue energy dream by triboelectric nanogenerator networks[J] publication-title: Nano Energy doi: 10.1016/j.nanoen.2017.06.035 – volume: 13 start-page: 1932 year: 2019 ident: JPCS_2592_1_012052bib12 article-title: High power density tower-like triboelectric nanogenerator for harvesting arbitrary directional water wave energy[J] publication-title: ACS nano – volume: 8 start-page: 417 year: 2022 ident: JPCS_2592_1_012052bib5 article-title: Powering data buoys using wave energy: A review of possibilities[J] publication-title: Journal of Ocean Engineering and Marine Energy doi: 10.1007/s40722-022-00240-3 – volume: 13 start-page: 364 year: 2019 ident: JPCS_2592_1_012052bib1 – volume: 9 year: 2019 ident: JPCS_2592_1_012052bib8 article-title: Rational structure optimized hybrid nanogenerator for highly efficient water wave energy harvesting[J] publication-title: Advanced Energy Materials – volume: 6 start-page: 4 year: 2012 ident: JPCS_2592_1_012052bib6 article-title: Wave energy converter concepts: Design challenges and classification[J] publication-title: IEEE Industrial Electronics Magazine doi: 10.1109/MIE.2012.2193290 |
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| SubjectTerms | Aluminum Buoys Channels Corrugated plates Corrugated sheet Corrugation Electric contacts Electrodes Electron transfer Energy harvesting Flat plates Hydrometeorology Marine meteorology Monitoring Nanogenerators Offshore construction Offshore oil exploration & development Pellets Physics Polytetrafluoroethylene Sliding contact Wave power |
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| Title | Corrugation-like Triboelectric Nanogenerators Integrated Buoys for Wave Energy Harvesting |
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