期刊
PHYSICS OF FLUIDS
卷 34, 期 1, 页码 -出版社
AIP Publishing
DOI: 10.1063/5.0074624
关键词
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资金
- National Natural Science Foundation of China (NSFC) [52001090]
- Harbin Engineering University [3072020CFT0104]
The shaft bracket, as the supporting structure of a ship shafting, has a significant impact on the hydrodynamic performance of the ship. It influences the wake field in the entire installation space, with the outer bracket arm having a more significant influence than the inner bracket arm. Flow separation occurs at the outer bracket arm. The shaft bracket improves turbulent kinetic energy and fluctuation velocity but can have adverse effects on the propeller if the installation angle is too large.
As the supporting structure of a ship shafting, the shaft bracket has a significant impact on the hydrodynamic performance of the ship, especially the propulsion. To determine the influence of the shaft bracket and bilge keel on the wake field, we performed a surface combatant wake field experiment. The flow field of the model with/without appendages was measured in three different sections, and the wake field characteristics on the propeller disk with/without appendages were compared. The influence of the shaft bracket was investigated, revealing that the bilge keel exhibited a slight influence on the flow field, the shaft bracket can influence the wake field in the entire installation space, the influence of the outer bracket arm was more significant than the inner bracket arm, and flow separation occurred at the outer bracket arm. The shaft bracket exhibited a more significant influence on the area above the propeller disk, resulting in an uneven flow field. The vortices generated by the shaft bracket were paired in opposite directions, and the vortices generated by the outer support arm were dominant. The shaft bracket improved the turbulent kinetic energy and fluctuation velocity, increasing their local maxima. Simultaneously, the velocity boundary layer gradually thickened from front to back at different cross sections. The installation angle of the shaft bracket is critical for the uniformity of the propeller disk plane flow field. If the angle is excessively large, cavitation readily occurs, which has an adverse influence on the propeller.
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