Wall shear stress measurement using a zero‑displacement floating‑element balance
Wall shear stress measurement using a zero‑displacement floating‑element balance
The floating-element (FE) principle, introduced nearly a century ago, remains one of the most versatile direct wall shearstress measurement methods. Yet, its intrinsic sources of systematic error, associated with the flow-exposed gap, off-axis load sensitivity, and calibration, have thus far limited its widespread application. In combination with the lack of standard designs and testing procedures, measurement reliability still hinges heavily on individual judgement and expertise. This paper presents a framework to curb these limitations, whereby the design and operation of a FE balance are leveraged by an analytical model that attempts to capture the behaviour and predict the relative contribution of the systematic sources of error. The design is based on a parallel-shift linkage and a zero-displacement force-feedback system. The FE has a surface area of 200 × 200 mm, and measurement sensitivity is adjustable depending on the surface condition and the Reynolds number. It is thus suitable for application in a wide range of low-speed, boundary-layer wind tunnels, small or large scale.Measurements of the skin friction coefficient over a smooth wall show a remarkable agreement with oil-film interferometry,especially for Re
Ferreira, Manuel
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Costa, Pedro B.
42b963c0-4a7c-4df6-8082-8e91cf4c6765
Ganapathisubramani, Bharath
5e69099f-2f39-4fdd-8a85-3ac906827052
Ferreira, Manuel
bdfedfb9-85f6-4dbb-b031-a977cb8f145d
Costa, Pedro B.
42b963c0-4a7c-4df6-8082-8e91cf4c6765
Ganapathisubramani, Bharath
5e69099f-2f39-4fdd-8a85-3ac906827052
Ferreira, Manuel, Costa, Pedro B. and Ganapathisubramani, Bharath
(2024)
Wall shear stress measurement using a zero‑displacement floating‑element balance.
Experiments in Fluids, 65 (4), [56].
(doi:10.1007/s00348-024-03785-1).
Abstract
The floating-element (FE) principle, introduced nearly a century ago, remains one of the most versatile direct wall shearstress measurement methods. Yet, its intrinsic sources of systematic error, associated with the flow-exposed gap, off-axis load sensitivity, and calibration, have thus far limited its widespread application. In combination with the lack of standard designs and testing procedures, measurement reliability still hinges heavily on individual judgement and expertise. This paper presents a framework to curb these limitations, whereby the design and operation of a FE balance are leveraged by an analytical model that attempts to capture the behaviour and predict the relative contribution of the systematic sources of error. The design is based on a parallel-shift linkage and a zero-displacement force-feedback system. The FE has a surface area of 200 × 200 mm, and measurement sensitivity is adjustable depending on the surface condition and the Reynolds number. It is thus suitable for application in a wide range of low-speed, boundary-layer wind tunnels, small or large scale.Measurements of the skin friction coefficient over a smooth wall show a remarkable agreement with oil-film interferometry,especially for Re
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s00348-024-03785-1
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Accepted/In Press date: 13 February 2024
e-pub ahead of print date: 30 March 2024
Identifiers
Local EPrints ID: 488697
URI: http://eprints.soton.ac.uk/id/eprint/488697
ISSN: 0723-4864
PURE UUID: 68071f97-3a8e-48a6-a93d-502b25c9eb74
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Date deposited: 04 Apr 2024 16:43
Last modified: 10 Apr 2024 02:01
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Author:
Manuel Ferreira
Author:
Pedro B. Costa
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