Abstract
A laser Doppler velocimetry (LDV) phase sampling technique is developed and adopted for the analysis of the flow upstream and behind a four-blade, highly skewed installed propeller in the case of a twin-screw ship model in a large circulating water channel. The technique implemented allows the reconstruction of the 3D flow field as a function of propeller angle in transversal planes located as close as possible to the blade trailing and leading edges. The main features of the propeller installation are highlighted, as well as the strong and complex interaction of the propeller with the hull wake, especially in the brackets region. The high level of detail and accuracy of the data acquired would be a powerful tool for the development and validation of computational codes applied to this topic.
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References
Kobayashi S (1982) Propeller wake survey by laser–Doppler velocimeter. In: Proceedings of the 4th international symposium on application of laser anemometry to fluid mechanics, Lisbon
Jessup S (1976) An experimental investigation of viscous aspects of propeller blade flow. MIT Department of Ocean Engineering, 76–6
WK George JL Lumley (1973) ArticleTitleThe laser–Doppler velocimeter and its applications to the measurement of turbulence J Fluid Mech 60 321–362
Min KS (1978) Numerical and experimental methods for the prediction of field point velocities around propeller blades. MIT Department of Ocean Engineering, 78–12
Hoshino T, Oshima A (1987) Measurement of the flow field around a propeller by using a 3-component laser–Doppler velocimeter. Mitsubishi Technical Review, No. 24
Chesnakas C, Jessup J (1998) Experimental characterisation of propeller tip flow. In: Proceedings of the 22nd symposium on naval hydrodynamics, Washington, DC
A Cenedese L Accardo R Milone (1988) ArticleTitlePhase sampling in the analysis of a propeller wake Exp Fluids 6 55–60 Occurrence Handle10.1007/BF00226135
Lammers G (1982) LDA measurements of the tip vortex velocity field in the slipstream of marine propellers. In: Proceedings of the 4th international symposium on application of laser anemometry to fluid mechanics, Lisbon
A Stella G Guj F Di Felice (2000) ArticleTitlePropeller flow field analysis by means of LDV phase sampling techniques Exp Fluids 28 1–10 Occurrence Handle10.1007/s003480050001
BS Hyun VC Patel (1991) ArticleTitleMeasurements in the flow around a marine propeller at the stern of an axisymmetric body Exp Fluids 11 33–44 Occurrence Handle10.1007/BF00190286
Rood EP, Anthony DG (1988) An experimental investigation of propeller hull appendage hydrodynamic interaction. In: Proceedings of the 17th symposium on naval hydrodynamics, Hague
Di Felice F, Felli M, Ingenito G (2000), Propeller wake analysis in nonuniform inflow by LDV. In: Proceedings of the propeller shafting symposium, Virginia Beach, USA
A Stella G Guj F Di Felice et al. (2000) ArticleTitleExperimental investigation of propeller wake downstream evolution by means of LDV and flow visualizations J Ship Res 44 159–173
F Di Felice D Di Florio M Felli et al. (2004) ArticleTitleExperimental investigation of the propeller wake at different loading conditions by particle image velocimetry J Ship Res 48 168–190
JO Hinze (1975) Turbulence McGraw Hill New York
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Felli, M., Felice, F. Propeller wake analysis in nonuniform inflow by LDV phase sampling techniques. J Mar Sci Technol 10, 159–172 (2005). https://doi.org/10.1007/s00773-005-0201-6
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DOI: https://doi.org/10.1007/s00773-005-0201-6