An auto-pitch wing-in-ground effect oscillating foil propulsor (APWIGs) is numerically modelled by means of an unsteady Reynolds Averaged Navier-Stokes solver. Locomotion of the biplane configuration is characterized as actively heaving motion in counterphase and passively pitching motion based on hydro-elastic moment. A comprehensive computation of propulsive properties for APWIGs as a function of frequency ratio and advance coefficient is performed. A consistently high propulsive efficiency is produced by APWIGs using a frequency ratio within the range of 1.1 to 1.4. It was found that the operation of APWIGs has an independence of forward speed within current parametric space.
History
Publication title
Proceedings of the 30th International Ocean and Polar Engineering Conference
Pagination
3544-3550
ISBN
978-1-880653-84-5
Department/School
Australian Maritime College
Publisher
International Society of Offshore and Polar Engineers
Place of publication
USA
Event title
30th International Ocean and Polar Engineering Conference
Event Venue
Shanghai, China
Date of Event (Start Date)
2020-10-11
Date of Event (End Date)
2020-10-16
Rights statement
Copyright 2020 International Society of Offshore and Polar Engineers (ISOPE)