Miniaturized rotating disc rheometer test for rapid screening of drag reducing marine coatings
Miniaturized rotating disc rheometer test for rapid screening of drag reducing marine coatings
Frictional drag from the submerged hull surface of a ship is a major component of the resistance experienced when moving through water. Techniques for measuring frictional drag on test surfaces include towing tanks, flow tunnels and rotating discs. These large-scale methods present practical difficulties that hinder their widespread adoption and they are not conducive to rapid throughput. In this study a miniaturized benchtop rotating disc method is described that uses test discs 25 mm in diameter. A highly sensitive analytical rheometer is used to measure the torque acting on the discs rotating in water. Frictional resistance changes are estimated by comparing momentum coefficients. Model rough surfaces were prepared by attaching different grades of sandpaper to the disc surface. Discs with experimental antifouling coatings applied were exposed in the marine environment for the accumulation of microbial fouling, and the rotor was capable of detecting the increased drag due to biofilm formation. The drag due to biofilm was related to an equivalent sand roughness.
drag, biofilms, rheometer, roughness, sandpaper, rotating disc
1-10
Dennington, Simon
6a329a55-8c10-4515-8920-d8f40f302221
Mekkhunthod, Ponkrit
92b12ad7-6629-4379-bf0f-6ce50624a817
Rides, Martin
45aba8ff-ecfd-48a6-b764-4e1a9d9ac2e6
Gibbs, David
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Salta, Maria
fe4f65be-0018-4952-99f0-5d99c809ed76
Stoodley, Victoria
694b6d89-0231-4d93-9340-16ebeeb7b047
Wharton, Julian
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Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
4 September 2015
Dennington, Simon
6a329a55-8c10-4515-8920-d8f40f302221
Mekkhunthod, Ponkrit
92b12ad7-6629-4379-bf0f-6ce50624a817
Rides, Martin
45aba8ff-ecfd-48a6-b764-4e1a9d9ac2e6
Gibbs, David
20b84095-eec1-4100-b67a-9a8025699aee
Salta, Maria
fe4f65be-0018-4952-99f0-5d99c809ed76
Stoodley, Victoria
694b6d89-0231-4d93-9340-16ebeeb7b047
Wharton, Julian
965a38fd-d2bc-4a19-a08c-2d4e036aa96b
Stoodley, Paul
08614665-92a9-4466-806e-20c6daeb483f
Dennington, Simon, Mekkhunthod, Ponkrit, Rides, Martin, Gibbs, David, Salta, Maria, Stoodley, Victoria, Wharton, Julian and Stoodley, Paul
(2015)
Miniaturized rotating disc rheometer test for rapid screening of drag reducing marine coatings.
Surface Topography: Metrology and Properties, 3 (3), .
(doi:10.1088/2051-672X/3/3/034004).
Abstract
Frictional drag from the submerged hull surface of a ship is a major component of the resistance experienced when moving through water. Techniques for measuring frictional drag on test surfaces include towing tanks, flow tunnels and rotating discs. These large-scale methods present practical difficulties that hinder their widespread adoption and they are not conducive to rapid throughput. In this study a miniaturized benchtop rotating disc method is described that uses test discs 25 mm in diameter. A highly sensitive analytical rheometer is used to measure the torque acting on the discs rotating in water. Frictional resistance changes are estimated by comparing momentum coefficients. Model rough surfaces were prepared by attaching different grades of sandpaper to the disc surface. Discs with experimental antifouling coatings applied were exposed in the marine environment for the accumulation of microbial fouling, and the rotor was capable of detecting the increased drag due to biofilm formation. The drag due to biofilm was related to an equivalent sand roughness.
Text
DENNINGTON_Disc Paper_Surface Topography.pdf
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Available under License Other.
More information
Accepted/In Press date: 7 August 2015
Published date: 4 September 2015
Keywords:
drag, biofilms, rheometer, roughness, sandpaper, rotating disc
Organisations:
Engineering Science Unit
Identifiers
Local EPrints ID: 381858
URI: http://eprints.soton.ac.uk/id/eprint/381858
PURE UUID: b8e4ffd0-21e8-4e66-932b-7981d26865e2
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Date deposited: 23 Sep 2015 13:43
Last modified: 15 Mar 2024 03:34
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Contributors
Author:
Ponkrit Mekkhunthod
Author:
Martin Rides
Author:
David Gibbs
Author:
Maria Salta
Author:
Victoria Stoodley
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