Simulating the operation of a novel variable camber hydrofoil

Author

Fagg, Simon ; Velay, Xavier

Author_Institution

Bournemouth Univ., UK

Volume

3

fYear

1996

fDate

3-10 Feb 1996

Firstpage

261

Abstract

Small marine vehicles such as boats and particularly windsurfers, employ winglike lifting surfaces, such as daggerboards, rudders and fins, on the underside of the hull to resist the sideways force of the sail and also for directional control. Because these lifting surfaces must operate on both tacks, a geometrically symmetrical cross-section is normally used, which inhibits the maximum values of lift that can be generated by a given surface area. To improve the performance it is proposed to develop a cross-section with camber, even though this presents a problem for a lifting surface which has to operate on both tacks. This paper discusses the process and reasoning behind the development of a cambered lifting section for marine vehicles and the way in which aerodynamic data, theory and computational techniques are being applied in this process

Keywords

CAD; aerodynamics; digital simulation; hydrodynamics; marine systems; structural engineering computing; ANSYS; FLORTRAN; aerodynamic data; boats; cambered lifting section; cross-section; daggerboards; directional control; fins; geometrically symmetrical cross-section; lifting surfaces; marine vehicle; rudders; sideways force; variable camber hydrofoil; wave sailing; windsurfers; winglike lifting surfaces; Aerodynamics; Assembly; Boats; Force control; Hydrodynamics; Marine vehicles; Planing; Power generation; Resists; Rubber;

fLanguage

English

Publisher

ieee

Conference_Titel

Aerospace Applications Conference, 1996. Proceedings., 1996 IEEE

Conference_Location

Aspen, CO

Print_ISBN

0-7803-3196-6

Type

conf

DOI

10.1109/AERO.1996.496068

Filename

496068