Download This PaperHigh-Output Water Flow Triboelectric Nanogenerator Based on Induction Electrification
21 Pages Posted: 20 Feb 2024
Abstract
As a highly recognized novel energy-harvesting technology, solid–liquid triboelectric nanogenerators (SL-TENGs) have garnered widespread attention in the field of renewable energy. However, despite their relatively high performance in discharge collection, the issue of output instability persists in SL-TENGs, potentially posing latent risks to electronic devices. Simultaneously, during the collection of induced electricity, the output of SL-TENGs is comparably diminished although it remains relatively stable. To overcome these drawbacks, a high-speed, water flow-based triboelectric nanogenerator was developed in this study. This design employs a pulsatile form, leveraging the moment when high-speed waterflow swiftly infiltrates the polytetrafluoroethylene pipe wall, causing the water to blanket the entire pipe wall and subsequently diminish gradually. This process engenders a substantial potential difference, culminating in a conspicuous output peak. Through this innovative design, an excellent output performance with an instantaneous peak voltage of 2270 V and an instantaneous peak current of 141 μA is successfully achieved. This performance level is sufficient for directly illuminating 300 light-emitting diode lights or powering an 18 W commercial lamp. This research proposes a new method of energy harvesting based on inductive electricity.
Keywords: Solid-liquid triboelectric nanogenerator, High-output performance, Induced charge collection, Electric potential difference
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