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Effect of propeller immersion depth on the flow around a marine propeller

Authors
Paik, Bu-GeunLee, Jung-YeopLee, Sang-Joon
Issue Date
6월-2008
Publisher
SOC NAVAL ARCH MARINE ENG
Keywords
propeller; inflow; wake; tip vortex; free surface; immersion depth
Citation
JOURNAL OF SHIP RESEARCH, v.52, no.2, pp 102 - 113
Pages
12
Journal Title
JOURNAL OF SHIP RESEARCH
Volume
52
Number
2
Start Page
102
End Page
113
URI
https://www.kriso.re.kr/sciwatch/handle/2021.sw.kriso/1329
ISSN
0022-4502
1542-0604
Abstract
The effects of the free surface on the flow around a rotating propeller were investigated experimentally in a circulating water channel by varying the propeller immersion depth. Instantaneous velocity fields were measured using a two-frame particle image velocimetry (PIV) technique at four blade phases. These fields were ensemble averaged to obtain the phase-averaged flow structure of both the inflow and the wake. The flow around the propeller was influenced by the propeller rotation speed, the loading on the blades, and the proximity of the propeller to the free surface. The boundary layers developed on the blade surfaces led to the formation of viscous wake at all immersion depths. As the propeller was moved closer to the free surface, the axial velocity within the slipstream decreased. Interaction between the tip vortices and the slipstream seemed to cause the tip vortices to follow an oscillating trajectory. The presence of the free surface greatly affected the wake structure, especially for the propeller immersion depth of 0.6 D. At small immersion depths, the free surface modified the tip and trailing vortices and the slipstream flow structure downstream of X/D = 0.3 in the propeller wake. The present study shows that wake modeling should consider the free surface effects to accurately predict propeller performance or cavitation at small propeller immersion depths.
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Paik, Bu Geun
지능형선박연구본부 (함정공학연구센터)
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