Energy harvesting in a fluid flow using piezoelectric materials · 2018. 12. 4. · Energy...
Transcript of Energy harvesting in a fluid flow using piezoelectric materials · 2018. 12. 4. · Energy...
Energy harvesting in a fluid flow using piezoelectric materials
Michele Curatolo
joint work with
Mario La Rosa and Pietro Prestininzi
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Engineering Dept., Roma Tre University, Italy
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Solid vibrations in fluids
S.D. Peterson et al., J. of Intelligent MaterialSystems and Structures 23, (2012).
M.J. Shelley et al., Annu. Rev. FluidMech. 43, (2010).
H.D. Akaydin et al., J. of Intelligent MaterialSystems and Structures 21, (2010).
S. Pobering et al., Int. Conference oon MEMS,NANO and Smart Systems 00, (2004).
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Piezoelectric materialsPiezoelectric solids develop an electric potential when compressed or stretched.
The optimal external load resistance depends on geometry andcharacteristics of force application.
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Energy harversting in fluid flows
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Energy harversting in fluid flowsThe solid vibrates due to the fluid flow andgenerates an electrical potential which isharvested on an electrical load resistance.
Piezoelectric sheet
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Modeling FSI
Channel
H
L
L s
L p
D
⌦m @⌦m = @⌦m t b [ @⌦m l [ @⌦m r
@⌦m t b
@⌦m l @⌦m r
a)
b)
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Modeling FSI
Momentum and mass conservation for the fluid
Solid balance of forces
Gauss’s law
Moving mesh
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Constitutive prescriptions
The fluid is assumed incompressible and linearly viscous:
Both structural and piezoelectric solid are assumed to be linearelastic:
The electric displacement in the piezoelectric solid:
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Principal boundary conditions
At the fluid-solid interface we assign:
At the channel walls the mesh is fixed:
A inlet condition on the left wall of the channel:
Channel
H
L
L s
L p
D
⌦m @⌦m = @⌦m t b [ @⌦m l [ @⌦m r
@⌦m t b
@⌦m l @⌦m r
a)
b)
At the top boundary of the piezoelectric solid we assign an electricalpotential n such that it holds:
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Results of simulations
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Results of simulations
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Results of simulations
The harvested electrical power is:
Vertical tip displacement of thesolid which periodicallyoscillates:
Frequency spectrum of the verticaltip displacement at different inletfluid velocities:
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Remeshing
• M. Curatolo and L. Teresi. Modeling and simulation of fish swimming with active muscles. Journal of Theoretical Biology, (2016).
• Download and play with the model! https://www.comsol.it/community/exchange/501/
• https://www.comsol.com/blogs/studying-the-swimming-patterns-of-fish-with-simulation/
• M. Curatolo and L. Teresi. The Virtual Aquarium: Simulations of Fish Swimming, European COMSOL Conference, Grenoble, France (2015).
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Remeshing
We need both moving mesh to solve the FSI for short time intervals, andre-meshing to track the long swimming path we aim at simulating.