Modeling and Optimization of a Vortex Induced Vibration Fluid Kinetic Energy Harvester

机译：涡旋诱导振动流体动能收割机的建模与优化

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In this contribution a fluid kinetic energy harvester excited by vortex induced vibration (VIV) is proposed. In terms of describing and verifying the interaction between the structural and the fluidic domain, a two-way Fluid Structure Interaction (FSI) simulation has been carried out. In order to optimize the harvester, different designs have been investigated to improve the performance. Subsequently, a demonstrator setup for testing the manufactured harvester has been assembled. The experimental results were compared with that of FSI-simulations. By applying the optimized harvester structure, the vortex induced pressure could be enhanced 4 times compared to convetional structures. The results show that the VIV energy harvester deliver 1 uAV power output under 2 m/s air flows.

机译：在这贡献中，提出了一种涡旋诱导振动（VIV）激发的流体动能收割机。就描述和验证了结构和流体结构域之间的相互作用而言，已经进行了双向流体结构相互作用（FSI）模拟。为了优化收割机，已经研究了不同的设计以提高性能。随后，已经组装了用于测试制造的收割机的演示装置。将实验结果与FSI模拟进行了比较。通过应用优化的收割机结构，与相反的结构相比，涡流诱导的压力可以增强4次。结果表明，VIV能源收割机提供1个UAV功率输出在2米/秒的空气流下。

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来源
《European Conference on Solid-State Transducers》|2015年||共4页
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作者
Quan Wen; Robert Schulze; Detlef Billep;
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原文格式 PDF
正文语种
中图分类倍频器、分频器、变频器;
关键词
Fluid kinetic energy; Energy harvester; Vortex Induced Vibration; Karman vortex street; Piezoelectricity;

机译：流体动能;能量收割机;涡旋诱导振动;Karman涡旋街;压电;

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2. Modeling and verification of piezoelectric wind energy harvesters enhanced by interaction between vortex-induced vibration and galloping [J] . Yang Xiaokang, He Xuefeng, Li Jiajie, Smart Materials & Structures . 2019,第11期

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3. Modeling and experimental study of a piezoelectric energy harvester from vortex shedding-induced vibration [J] . Hu Yili, Yang Bin, Chen Xiang, Energy Conversion & Management . 2018,第APRa期

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4. Modeling and Optimization of a Vortex Induced Vibration Fluid Kinetic Energy Harvester [C] . Quan Wen, Robert Schulze, Detlef Billep European Conference on Solid-State Transducers . 2015

机译：涡旋诱导振动流体动能收割机的建模与优化
5. Fluidic Energy Harvesters Subjected to Vortex Induced Vibration [D] . Ranjbar, Vahid Azadeh. 2017

机译：遭受涡流振动的流体能量采集器
6. Modeling and Analysis of Upright Piezoelectric Energy Harvester under Aerodynamic Vortex-induced Vibration [O] . Jinda Jia, Xiaobiao Shan, Deepesh Upadrashta, 2018

机译：气动涡流振动下立式压电能量采集器的建模与分析
7. Modeling and Optimization of a Vortex Induced Vibration Fluid Kinetic Energy Harvester [O] . Wen Quan, Schulze Robert, Billep Detlef, 2014

机译：涡激振动流体动能采集器的建模与优化

Modeling and Optimization of a Vortex Induced Vibration Fluid Kinetic Energy Harvester

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