The non-dimensional parameters influencing tip leakage noise
The non-dimensional parameters influencing tip leakage noise
Tip leakage noise is one of the least understood noise sources in turbomachinery, arising from the interactions between the tip leakage flow, blade tips and casing boundary layer. This study employs experimental and parametric investigations to systematically identify three key non-dimensional parameters that govern tip leakage noise: the angle of attack, the ratio between the maximum aerofoil thickness and gap size τ max/e and between the gap size and boundary-layer thickness e/δ. These parameters regulate two fluid-dynamic instabilities, vortex shedding and shear-layer roll-up, responsible for the two tip leakage noise sources. Specifically, the first noise source arises when τ max/e < 4 and with the tip vortex positioned away from the aerofoil surface for α > 10° . The second noise source occurs whenever the tip flow separates at the pressure side edge, with its strength proportional to the lift coefficient, depending on α, and diminishing as e/δ decreases and τ max/e increases. Additionally, a relationship between the first noise source and drag losses is established, demonstrating that these losses are governed by α and τ max/e.
aeroacoustics, shear layers, vortex shedding
Saraceno, Ivan
37e98610-bd4e-4cb6-96fa-f85b970a2a4e
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Ganapathisubramani, Bharath
5e69099f-2f39-4fdd-8a85-3ac906827052
Saraceno, Ivan
37e98610-bd4e-4cb6-96fa-f85b970a2a4e
Paruchuri, Chaitanya
5c1def64-6347-4be3-ac2d-b9f6a314b81d
Ganapathisubramani, Bharath
5e69099f-2f39-4fdd-8a85-3ac906827052
Saraceno, Ivan, Paruchuri, Chaitanya and Ganapathisubramani, Bharath
(2025)
The non-dimensional parameters influencing tip leakage noise.
Journal of Fluid Mechanics, 1020 (A14), [A14].
(doi:10.1017/jfm.2025.10640).
Abstract
Tip leakage noise is one of the least understood noise sources in turbomachinery, arising from the interactions between the tip leakage flow, blade tips and casing boundary layer. This study employs experimental and parametric investigations to systematically identify three key non-dimensional parameters that govern tip leakage noise: the angle of attack, the ratio between the maximum aerofoil thickness and gap size τ max/e and between the gap size and boundary-layer thickness e/δ. These parameters regulate two fluid-dynamic instabilities, vortex shedding and shear-layer roll-up, responsible for the two tip leakage noise sources. Specifically, the first noise source arises when τ max/e < 4 and with the tip vortex positioned away from the aerofoil surface for α > 10° . The second noise source occurs whenever the tip flow separates at the pressure side edge, with its strength proportional to the lift coefficient, depending on α, and diminishing as e/δ decreases and τ max/e increases. Additionally, a relationship between the first noise source and drag losses is established, demonstrating that these losses are governed by α and τ max/e.
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the-non-dimensional-parameters-influencing-tip-leakage-noise
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Accepted/In Press date: 25 August 2025
e-pub ahead of print date: 1 October 2025
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© The Author(s), 2025.
Keywords:
aeroacoustics, shear layers, vortex shedding
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Local EPrints ID: 506761
URI: http://eprints.soton.ac.uk/id/eprint/506761
ISSN: 0022-1120
PURE UUID: 6840f838-1b08-4696-963c-a8184dacaf06
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Date deposited: 18 Nov 2025 17:36
Last modified: 20 Nov 2025 03:11
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Author:
Ivan Saraceno
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