An experimental investigation into the drag reduction performance of dimpled plates in a fully turbulent channel flow

İlter, Yasin Kaan and Ünal, Uğur Oral and Shi, Weichao and Tokgöz, Sedat and Atlar, Mehmet (2024) An experimental investigation into the drag reduction performance of dimpled plates in a fully turbulent channel flow. Ocean Engineering, 307. 118198. ISSN 0029-8018 (https://doi.org/10.1016/j.oceaneng.2024.118198)

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Abstract

Dimpled surfaces have gained increasing attention in recent years for their potential to reduce turbulent skin friction, a capability previously acknowledged for its beneficial implications on heat transfer. As a passive drag reduction method, dimpled surfaces offer significant advantages for marine applications due to their effectiveness and practical applicability. However, despite numerous studies, conflicting opinions and inconsistent drag reduction rates persist in the literature. This paper addresses these ambiguities and offers valuable insights into the effectiveness of dimpled surfaces for drag reduction in fully turbulent flows. We conducted an extensive experimental investigation involving various dimple configurations, including different depth-to-diameter ratios, diameters and orientations, utilising a specialised Fully Turbulent Flow Channel facility and a Particle Image Velocimetry system. Our findings demonstrated that circular dimple geometries, particularly those with low depth ratios, can achieve significant drag reduction of up to 27% as the Reynolds number increases. These results highlight the substantial potential of dimpled surfaces for improving energy efficiency in marine applications, where skin friction accounts for a significant portion of the total drag experienced by large vessels.

ORCID iDs

İlter, Yasin Kaan ORCID: https://orcid.org/0000-0001-6613-2944

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• Item metadata

  Item type:	Article
  ID code:	89347
  Dates:	Date Event 1 September 2024 Published 20 May 2024 Published Online 13 May 2024 Accepted
  Subjects:	Naval Science > Naval architecture. Shipbuilding. Marine engineering
  Department:	Faculty of Engineering > Naval Architecture, Ocean & Marine Engineering Strategic Research Themes > Ocean, Air and Space
  Depositing user:	Pure Administrator
  Date deposited:	23 May 2024 10:57
  Last modified:	16 Nov 2024 01:27
  URI:	https://strathprints.strath.ac.uk/id/eprint/89347