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Modeling and Experiment of a Novel Micro Wave Energy Converter

This paper proposed a novel micro wave energy converter which can convert irregular wave energy into rotating mechanical energy, then into electrical energy. The device consists of an energy absorption part and an energy conversion part. In details, the blades are installed on the absorber circumfer... Full description

Journal Title: Applied mechanics and materials 2017-02, Vol.863, p.175-182
Main Author: Zhu, Yi Ming
Other Authors: Luo, Zi Rong , Lu, Zhong Yue , Shang, Jian Zhong
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Zurich: Trans Tech Publications Ltd
ID: ISSN: 1662-7482
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title: Modeling and Experiment of a Novel Micro Wave Energy Converter
format: Article
creator:
  • Zhu, Yi Ming
  • Luo, Zi Rong
  • Lu, Zhong Yue
  • Shang, Jian Zhong
subjects:
  • Blades
  • Cylinder liners
  • Design optimization
  • Design parameters
  • Energy absorption
  • Energy conversion
  • Environment models
  • Experiments
  • Heaving
  • Marine environment
  • Mathematical models
  • Rotating bodies
  • Vertical motion
  • Wave power
ispartof: Applied mechanics and materials, 2017-02, Vol.863, p.175-182
description: This paper proposed a novel micro wave energy converter which can convert irregular wave energy into rotating mechanical energy, then into electrical energy. The device consists of an energy absorption part and an energy conversion part. In details, the blades are installed on the absorber circumferentially and averagely, which are capable of converting the vertical motion of the surface body to continuous rotation of the absorber and leading to a great increase in efficiency. A physical prototype was built to test the performance of the novel generator and optimize the design parameters. In the experiment part, a linear motion electric cylinder was used as the drive power to provide the heaving motion for the device. And the experiment platform was built for modeling a marine environment. Also, a data acquisition program was edited in Labview. Thus, the experiment analyzed the influence of amplitude, frequency, blade angle and resistance value to the output power, and then obtained the optimum parameters combination which can maximize the value of the output power. The result will provide reference for the device’s further application.
language: eng
source:
identifier: ISSN: 1662-7482
fulltext: no_fulltext
issn:
  • 1662-7482
  • 1660-9336
  • 1662-7482
url: Link


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descriptionThis paper proposed a novel micro wave energy converter which can convert irregular wave energy into rotating mechanical energy, then into electrical energy. The device consists of an energy absorption part and an energy conversion part. In details, the blades are installed on the absorber circumferentially and averagely, which are capable of converting the vertical motion of the surface body to continuous rotation of the absorber and leading to a great increase in efficiency. A physical prototype was built to test the performance of the novel generator and optimize the design parameters. In the experiment part, a linear motion electric cylinder was used as the drive power to provide the heaving motion for the device. And the experiment platform was built for modeling a marine environment. Also, a data acquisition program was edited in Labview. Thus, the experiment analyzed the influence of amplitude, frequency, blade angle and resistance value to the output power, and then obtained the optimum parameters combination which can maximize the value of the output power. The result will provide reference for the device’s further application.
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subjectBlades ; Cylinder liners ; Design optimization ; Design parameters ; Energy absorption ; Energy conversion ; Environment models ; Experiments ; Heaving ; Marine environment ; Mathematical models ; Rotating bodies ; Vertical motion ; Wave power
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descriptionThis paper proposed a novel micro wave energy converter which can convert irregular wave energy into rotating mechanical energy, then into electrical energy. The device consists of an energy absorption part and an energy conversion part. In details, the blades are installed on the absorber circumferentially and averagely, which are capable of converting the vertical motion of the surface body to continuous rotation of the absorber and leading to a great increase in efficiency. A physical prototype was built to test the performance of the novel generator and optimize the design parameters. In the experiment part, a linear motion electric cylinder was used as the drive power to provide the heaving motion for the device. And the experiment platform was built for modeling a marine environment. Also, a data acquisition program was edited in Labview. Thus, the experiment analyzed the influence of amplitude, frequency, blade angle and resistance value to the output power, and then obtained the optimum parameters combination which can maximize the value of the output power. The result will provide reference for the device’s further application.
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11Rotating bodies
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abstractThis paper proposed a novel micro wave energy converter which can convert irregular wave energy into rotating mechanical energy, then into electrical energy. The device consists of an energy absorption part and an energy conversion part. In details, the blades are installed on the absorber circumferentially and averagely, which are capable of converting the vertical motion of the surface body to continuous rotation of the absorber and leading to a great increase in efficiency. A physical prototype was built to test the performance of the novel generator and optimize the design parameters. In the experiment part, a linear motion electric cylinder was used as the drive power to provide the heaving motion for the device. And the experiment platform was built for modeling a marine environment. Also, a data acquisition program was edited in Labview. Thus, the experiment analyzed the influence of amplitude, frequency, blade angle and resistance value to the output power, and then obtained the optimum parameters combination which can maximize the value of the output power. The result will provide reference for the device’s further application.
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doi10.4028/www.scientific.net/AMM.863.175