The Influence of Discontinuity‐Induced Fringing Effect on the Output Performance of Contact‐Separation Mode Triboelectric Nanogenerators: Experiment and Modeling Studies

Teresa Cheng; Han Hu; Navid Valizadeh; Liu Qiong; Florian Bittner; Ling Yang; Timon Rabczuk; Xiaoning Jiang; Xiaoying Zhuang

doi:10.1002/aesr.202400002

Advanced Energy & Sustainability Research (Oct 2024)

The Influence of Discontinuity‐Induced Fringing Effect on the Output Performance of Contact‐Separation Mode Triboelectric Nanogenerators: Experiment and Modeling Studies

Teresa Cheng,
Han Hu,
Navid Valizadeh,
Liu Qiong,
Florian Bittner,
Ling Yang,
Timon Rabczuk,
Xiaoning Jiang,
Xiaoying Zhuang

Affiliations

Teresa Cheng: Chair of Computational Science and Simulation Technology Faculty of Mathematics and Physics Leibniz University Hannover 30167 Hannover Germany
Han Hu: Chair of Computational Science and Simulation Technology Faculty of Mathematics and Physics Leibniz University Hannover 30167 Hannover Germany
Navid Valizadeh: Chair of Computational Science and Simulation Technology Faculty of Mathematics and Physics Leibniz University Hannover 30167 Hannover Germany
Liu Qiong: Chair of Computational Science and Simulation Technology Faculty of Mathematics and Physics Leibniz University Hannover 30167 Hannover Germany
Florian Bittner: Institute of Plastics and Circular Economy (IKK) Leibniz University Hannover 30167 Garbsen Germany
Ling Yang: Geriatric Department Shanghai Fourth People's Hospital Affiliated to Tongji University Shanghai 30167 China
Timon Rabczuk: Institute of Structural Mechanics Bauhaus University 99423 Weimar Germany
Xiaoning Jiang: Department of Mechanical and Aerospace Engineering North Carolina State University Raleigh NC 27695 USA
Xiaoying Zhuang: Chair of Computational Science and Simulation Technology Faculty of Mathematics and Physics Leibniz University Hannover 30167 Hannover Germany

DOI: https://doi.org/10.1002/aesr.202400002
Journal volume & issue: Vol. 5, no. 10
pp. n/a – n/a

Abstract

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Triboelectric nanogenerators (TENGs) are promising self‐powering supplies for various intelligent sensing and monitoring devices, especially because they can harvest electric energy from low frequency and small‐scale mechanical motions. Despite the fact that contact‐separation mode TENGs with smaller contact areas harvest higher electrical outputs due to fringing effect, the impact of fringing effect on TENGs’ electrical outputs is rarely investigated quantitatively. Herein, in this study, the influence of fringing effect on the electrical outputs of contact‐separation mode TENGs by introducing discontinuity on the tribo‐negative side manually is investigated. In the results, it is revealed that the TENGs with more discontinuities show higher overall electric performance. Compared to pristine TENGs, the TENGs with discontinuity increased significantly, improving the surface charge by 50% and the power density by 114% when cross discontinuities are applied. However, one should generate discontinuities on tribo‐negative side of TENGs using ceramic blade instead of metal blade within a positive‐ion atmosphere due to the neutralization through the electrically conductive metal blade. The computational simulation validates that the TENGs with discontinuities obtain higher electrical outputs, and further investigates the effect of discontinuity gap size and array distance on TENGs performance. In this study, a promising method is provided for the future design of TENGs using discontinuous structures.

Published in Advanced Energy & Sustainability Research

ISSN: 2699-9412 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Environmental technology. Sanitary engineering; Technology: Mechanical engineering and machinery: Renewable energy sources
Website: https://onlinelibrary.wiley.com/journal/26999412

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