Vibration energy harvesting of a three-directional functionally graded pipe conveying fluids

This paper proposes a novel three-directional functionally graded (3D FG) vibration energy harvesting model based on a bimorph pipe structure. A rectangular pipe has material properties that vary continuously along the axial, width, and height directions, and a steady fluid flows inside the pipe. Tw...

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Published inApplied mathematics and mechanics Vol. 46; no. 5; pp. 795 - 812
Main Authors Yu, Tianchi, Liang, Feng, Yang, Hualin
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.05.2025
Springer Nature B.V
EditionEnglish ed.
Subjects
Applications of Mathematics
Classical Mechanics
Energy
Energy harvesting
Finite element method
Flow velocity
Fluid flow
Fluid- and Aerodynamics
Fluid-structure interaction
Functionally gradient materials
Load resistance
Material properties
Mathematical Modeling and Industrial Mathematics
Mathematics
Mathematics and Statistics
Maximum power
Parameters
Partial Differential Equations
Piezoelectricity
Pipes
Vibration
three-directional functionally graded material (3D FGM)
97M10
vibration energy harvesting
fluid-structure interaction (FSI)
electro-mechanical coupling
74E30
fluid-conveying pipe
O326
70J35
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Abstract This paper proposes a novel three-directional functionally graded (3D FG) vibration energy harvesting model based on a bimorph pipe structure. A rectangular pipe has material properties that vary continuously along the axial, width, and height directions, and a steady fluid flows inside the pipe. Two piezoelectric layers are attached to the upper and lower surfaces of the pipe, and are connected in series with a load resistance. The output electricity is predicted theoretically and validated by finite element (FE) simulation. The complex mechanisms regulating the energy harvesting performance are investigated, focusing particularly on the effects of 3D FG material (FGM) parameters, load resistance, fluid-structure interaction (FSI), and geometry. Numerical results indicate that among several material gradient parameters, the axial gradient index has the most significant impact. Increasing the axial and height gradient indices can markedly enhance the energy harvesting performance. The optimal resistances differ between the first two modes. Overall, the maximum power is generated at lower resistances. The FSI effect can also improve the energy harvesting performance; however, higher flow velocities may destabilize the system, causing failure of harvesting energy. This research is capable of providing new insights into the design of a pipe energy harvester in engineering applications.
AbstractList This paper proposes a novel three-directional functionally graded (3D FG) vibration energy harvesting model based on a bimorph pipe structure. A rectangular pipe has material properties that vary continuously along the axial, width, and height directions, and a steady fluid flows inside the pipe. Two piezoelectric layers are attached to the upper and lower surfaces of the pipe, and are connected in series with a load resistance. The output electricity is predicted theoretically and validated by finite element (FE) simulation. The complex mechanisms regulating the energy harvesting performance are investigated, focusing particularly on the effects of 3D FG material (FGM) parameters, load resistance, fluid-structure interaction (FSI), and geometry. Numerical results indicate that among several material gradient parameters, the axial gradient index has the most significant impact. Increasing the axial and height gradient indices can markedly enhance the energy harvesting performance. The optimal resistances differ between the first two modes. Overall, the maximum power is generated at lower resistances. The FSI effect can also improve the energy harvesting performance; however, higher flow velocities may destabilize the system, causing failure of harvesting energy. This research is capable of providing new insights into the design of a pipe energy harvester in engineering applications.
Author Yu, Tianchi
Liang, Feng
Yang, Hualin
Author_xml – sequence: 1
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  surname: Liang
  fullname: Liang, Feng
  email: lf84411@163.com
  organization: College of Electromechanical Engineering, Qingdao University of Science and Technology, Marine Research Institute of Qingdao University of Science and Technology
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  givenname: Hualin
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  fullname: Yang, Hualin
  organization: College of Electromechanical Engineering, Qingdao University of Science and Technology, Marine Research Institute of Qingdao University of Science and Technology
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Keywords three-directional functionally graded material (3D FGM)
97M10
vibration energy harvesting
fluid-structure interaction (FSI)
electro-mechanical coupling
74E30
fluid-conveying pipe
O326
70J35
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Snippet This paper proposes a novel three-directional functionally graded (3D FG) vibration energy harvesting model based on a bimorph pipe structure. A rectangular...
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SubjectTerms Applications of Mathematics
Classical Mechanics
Energy
Energy harvesting
Finite element method
Flow velocity
Fluid flow
Fluid- and Aerodynamics
Fluid-structure interaction
Functionally gradient materials
Load resistance
Material properties
Mathematical Modeling and Industrial Mathematics
Mathematics
Mathematics and Statistics
Maximum power
Parameters
Partial Differential Equations
Piezoelectricity
Pipes
Vibration
Title Vibration energy harvesting of a three-directional functionally graded pipe conveying fluids
URI https://link.springer.com/article/10.1007/s10483-025-3249-8
https://www.proquest.com/docview/3199833446
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