High-Efficiency Can Be Achieved for Non-Uniformly Flexible Pitching Hydrofoils via Tailored Collective Interactions
High-Efficiency Can Be Achieved for Non-Uniformly Flexible Pitching Hydrofoils via Tailored Collective Interactions
New experiments examine the interactions between a pair of three-dimensional (AR = 2) non-uniformly flexible pitching hydrofoils through force and efficiency measurements. It is discovered that the collective efficiency is improved when the follower foil has a nearly out-of-phase synchronization with the leader and is located directly downstream with an optimal streamwise spacing of X*=0.5. The collective efficiency is further improved when the follower operates with a nominal amplitude of motion that is 36% larger than the leader’s amplitude. A slight degradation in the collective efficiency was measured when the follower was slightly-staggered from the in-line arrangement where direct vortex impingement is expected. Operating at the optimal conditions, the measured collective efficiency and thrust are ηC=62% and CT,C=0.44, which are substantial improvements over the efficiency and thrust of ηC=29% and CT,C=0.16 of two fully-rigid foils in isolation. This demonstrates the promise of achieving high-efficiency with simple purely pitching mechanical systems and paves the way for the design of high-efficiency bio-inspired underwater vehicles.
233
Kurt, Melike
15dea522-b5e5-4360-8b03-7a68e543c873
Mivehchi, Amin
e3cd21f8-2efd-4b02-9c02-c0fe320e3d24
Moored, Keith W
9c89d06c-a49a-4ff0-bd32-37d9d143d39a
25 June 2021
Kurt, Melike
15dea522-b5e5-4360-8b03-7a68e543c873
Mivehchi, Amin
e3cd21f8-2efd-4b02-9c02-c0fe320e3d24
Moored, Keith W
9c89d06c-a49a-4ff0-bd32-37d9d143d39a
Kurt, Melike, Mivehchi, Amin and Moored, Keith W
(2021)
High-Efficiency Can Be Achieved for Non-Uniformly Flexible Pitching Hydrofoils via Tailored Collective Interactions.
Fluids, 6 (7), .
(doi:10.3390/fluids6070233).
Abstract
New experiments examine the interactions between a pair of three-dimensional (AR = 2) non-uniformly flexible pitching hydrofoils through force and efficiency measurements. It is discovered that the collective efficiency is improved when the follower foil has a nearly out-of-phase synchronization with the leader and is located directly downstream with an optimal streamwise spacing of X*=0.5. The collective efficiency is further improved when the follower operates with a nominal amplitude of motion that is 36% larger than the leader’s amplitude. A slight degradation in the collective efficiency was measured when the follower was slightly-staggered from the in-line arrangement where direct vortex impingement is expected. Operating at the optimal conditions, the measured collective efficiency and thrust are ηC=62% and CT,C=0.44, which are substantial improvements over the efficiency and thrust of ηC=29% and CT,C=0.16 of two fully-rigid foils in isolation. This demonstrates the promise of achieving high-efficiency with simple purely pitching mechanical systems and paves the way for the design of high-efficiency bio-inspired underwater vehicles.
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Accepted/In Press date: 18 June 2021
Published date: 25 June 2021
Identifiers
Local EPrints ID: 474760
URI: http://eprints.soton.ac.uk/id/eprint/474760
ISSN: 2311-5521
PURE UUID: bcb78907-8dc2-4965-bf03-c6f15875d1b4
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Date deposited: 02 Mar 2023 17:43
Last modified: 17 Mar 2024 04:05
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Author:
Melike Kurt
Author:
Amin Mivehchi
Author:
Keith W Moored
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