Resonance wave pumping with surface waves

Remi A. Carmigniani; Michel Benoit; Damien Violeau; Morteza Gharib

doi:10.1017/jfm.2016.720

Resonance wave pumping with surface waves

Remi A. Carmigniani
, Michel Benoit
, Damien Violeau
, Morteza Gharib

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we present a novel extension of impedance (Liebau) wave pumping to a free-surface condition where resonance pumping could be used for hydraulic energy harvesting. Similar pumping behaviours are reported. Surface envelopes of the free surface are shown and outline two different dynamics: U-tube oscillator and wave/resonance pumping. The latter is particularly interesting, since, from an oscillatory motion, a unidirectional flow with small to moderate oscillations is generated. A linear theory is developed to evaluate pseudo-analytically the resonance frequencies of the pump using eigenfunction expansions, and a simplified model is proposed to understand the main pumping mechanism in this type of pump. It is found that the Stokes mass transport is driving the pump. The conversion of energy from paddle oscillation to mean flow is evaluated. Efficiency up to 22 % is reported.

Original language	English
Pages (from-to)	1-36
Number of pages	36
Journal	Journal of Fluid Mechanics
Volume	811
DOIs	https://doi.org/10.1017/jfm.2016.720
Publication status	Published - 25 Jan 2017
Externally published	Yes

Keywords

wave breaking
wave-structure interactions
waves/free-surface flows

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10.1017/jfm.2016.720

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title = "Resonance wave pumping with surface waves",

abstract = "In this paper, we present a novel extension of impedance (Liebau) wave pumping to a free-surface condition where resonance pumping could be used for hydraulic energy harvesting. Similar pumping behaviours are reported. Surface envelopes of the free surface are shown and outline two different dynamics: U-tube oscillator and wave/resonance pumping. The latter is particularly interesting, since, from an oscillatory motion, a unidirectional flow with small to moderate oscillations is generated. A linear theory is developed to evaluate pseudo-analytically the resonance frequencies of the pump using eigenfunction expansions, and a simplified model is proposed to understand the main pumping mechanism in this type of pump. It is found that the Stokes mass transport is driving the pump. The conversion of energy from paddle oscillation to mean flow is evaluated. Efficiency up to 22 \% is reported.",

keywords = "wave breaking, wave-structure interactions, waves/free-surface flows",

author = "Carmigniani, \{Remi A.\} and Michel Benoit and Damien Violeau and Morteza Gharib",

note = "Publisher Copyright: {\textcopyright} 2016 Cambridge University Press.",

year = "2017",

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doi = "10.1017/jfm.2016.720",

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T1 - Resonance wave pumping with surface waves

AU - Carmigniani, Remi A.

AU - Benoit, Michel

AU - Violeau, Damien

AU - Gharib, Morteza

PY - 2017/1/25

Y1 - 2017/1/25

N2 - In this paper, we present a novel extension of impedance (Liebau) wave pumping to a free-surface condition where resonance pumping could be used for hydraulic energy harvesting. Similar pumping behaviours are reported. Surface envelopes of the free surface are shown and outline two different dynamics: U-tube oscillator and wave/resonance pumping. The latter is particularly interesting, since, from an oscillatory motion, a unidirectional flow with small to moderate oscillations is generated. A linear theory is developed to evaluate pseudo-analytically the resonance frequencies of the pump using eigenfunction expansions, and a simplified model is proposed to understand the main pumping mechanism in this type of pump. It is found that the Stokes mass transport is driving the pump. The conversion of energy from paddle oscillation to mean flow is evaluated. Efficiency up to 22 % is reported.

AB - In this paper, we present a novel extension of impedance (Liebau) wave pumping to a free-surface condition where resonance pumping could be used for hydraulic energy harvesting. Similar pumping behaviours are reported. Surface envelopes of the free surface are shown and outline two different dynamics: U-tube oscillator and wave/resonance pumping. The latter is particularly interesting, since, from an oscillatory motion, a unidirectional flow with small to moderate oscillations is generated. A linear theory is developed to evaluate pseudo-analytically the resonance frequencies of the pump using eigenfunction expansions, and a simplified model is proposed to understand the main pumping mechanism in this type of pump. It is found that the Stokes mass transport is driving the pump. The conversion of energy from paddle oscillation to mean flow is evaluated. Efficiency up to 22 % is reported.

KW - wave breaking

KW - wave-structure interactions

KW - waves/free-surface flows

UR - https://www.scopus.com/pages/publications/85028240409

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DO - 10.1017/jfm.2016.720

M3 - Article

AN - SCOPUS:85028240409

SN - 0022-1120

VL - 811

SP - 1

EP - 36

JO - Journal of Fluid Mechanics

JF - Journal of Fluid Mechanics

ER -

Resonance wave pumping with surface waves

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Keywords

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