In the present paper, dierent approaches for the design and analysis of ducted propellers are presented and discussed, starting from the conventional lifting line / lifting surface approach and considering more complex (and computationally demanding) panel methods and RANS solvers. Attention is posed on the more challenging case of decelerating duct conguration, and a design case is presented for a thorough analysis of the various approaches. Two dierent propellers geometries have been dened, and the results of the experimental campaign at towing tank and cavitation tunnel carried out on them are shown, demonstrating the capabilities and limits of the adopted approaches. Finally, general guidelines for the design of this kind of propulsor are briefly outlined.
Comparison of Different Approaches for the Design and Analysis of Ducted Propellers
GAGGERO, STEFANO;VIVIANI, MICHELE;TANI, GIORGIO;
2013-01-01
Abstract
In the present paper, dierent approaches for the design and analysis of ducted propellers are presented and discussed, starting from the conventional lifting line / lifting surface approach and considering more complex (and computationally demanding) panel methods and RANS solvers. Attention is posed on the more challenging case of decelerating duct conguration, and a design case is presented for a thorough analysis of the various approaches. Two dierent propellers geometries have been dened, and the results of the experimental campaign at towing tank and cavitation tunnel carried out on them are shown, demonstrating the capabilities and limits of the adopted approaches. Finally, general guidelines for the design of this kind of propulsor are briefly outlined.
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