Effect of aspect ratio on the propulsive performance of tandem flapping foils

N. S. Lagopoulos; G. D. Weymouth; B. Ganapathisubramani

doi:10.1017/flo.2022.35

Effect of aspect ratio on the propulsive performance of tandem flapping foils

N. S. Lagopoulos^*, G. D. Weymouth, B. Ganapathisubramani

^*Corresponding author for this work

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

Abstract

In this work, we describe the impact of aspect ratio on the performance of optimally phased, identical flapping flippers in a tandem configuration. Three-dimensional simulations are performed for seven sets of single and tandem finite foils at a moderate Reynolds number, with thrust producing, heave-to-pitch coupled kinematics. Increasing slenderness (or) is found to improve thrust coefficients and thrust augmentation but the benefits level off towards higher values of. However, the propulsive efficiency shows no significant change with increasing, while the hind foil outperforms the single by a small margin. Further analysis of the spanwise development and propagation of vortical structures allows us to gain some insights into the mechanisms of these wake interactions and provide valuable information for the design of novel biomimetic propulsion systems.

Original language	English
Article number	E1
Journal	Flow
Volume	3
DOIs	https://doi.org/10.1017/flo.2022.35
Publication status	Published - 2023
Externally published	Yes

Keywords

Autonomous underwater vehicles
Swimming/flying
Vortex dynamics

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10.1017/flo.2022.35

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abstract = "In this work, we describe the impact of aspect ratio on the performance of optimally phased, identical flapping flippers in a tandem configuration. Three-dimensional simulations are performed for seven sets of single and tandem finite foils at a moderate Reynolds number, with thrust producing, heave-to-pitch coupled kinematics. Increasing slenderness (or) is found to improve thrust coefficients and thrust augmentation but the benefits level off towards higher values of. However, the propulsive efficiency shows no significant change with increasing, while the hind foil outperforms the single by a small margin. Further analysis of the spanwise development and propagation of vortical structures allows us to gain some insights into the mechanisms of these wake interactions and provide valuable information for the design of novel biomimetic propulsion systems. ",

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year = "2023",

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AU - Lagopoulos, N. S.

AU - Weymouth, G. D.

AU - Ganapathisubramani, B.

PY - 2023

Y1 - 2023

N2 - In this work, we describe the impact of aspect ratio on the performance of optimally phased, identical flapping flippers in a tandem configuration. Three-dimensional simulations are performed for seven sets of single and tandem finite foils at a moderate Reynolds number, with thrust producing, heave-to-pitch coupled kinematics. Increasing slenderness (or) is found to improve thrust coefficients and thrust augmentation but the benefits level off towards higher values of. However, the propulsive efficiency shows no significant change with increasing, while the hind foil outperforms the single by a small margin. Further analysis of the spanwise development and propagation of vortical structures allows us to gain some insights into the mechanisms of these wake interactions and provide valuable information for the design of novel biomimetic propulsion systems.

AB - In this work, we describe the impact of aspect ratio on the performance of optimally phased, identical flapping flippers in a tandem configuration. Three-dimensional simulations are performed for seven sets of single and tandem finite foils at a moderate Reynolds number, with thrust producing, heave-to-pitch coupled kinematics. Increasing slenderness (or) is found to improve thrust coefficients and thrust augmentation but the benefits level off towards higher values of. However, the propulsive efficiency shows no significant change with increasing, while the hind foil outperforms the single by a small margin. Further analysis of the spanwise development and propagation of vortical structures allows us to gain some insights into the mechanisms of these wake interactions and provide valuable information for the design of novel biomimetic propulsion systems.

KW - Autonomous underwater vehicles

KW - Swimming/flying

KW - Vortex dynamics

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DO - 10.1017/flo.2022.35

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SN - 2633-4259

VL - 3

JO - Flow

JF - Flow

M1 - E1

ER -

Effect of aspect ratio on the propulsive performance of tandem flapping foils

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Keywords

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