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{{Short description|Keel type}}
[[Image:Australia II winged keel.JPG|thumb|right|250px|Winged keel of ''[[Australia II]]'']]
[[Image:Australia II winged keel.JPG|thumb|right|250px|Winged keel of ''[[Australia II]]'']]
The '''winged keel''' is a new sailboat [[keel]] layout fitted on the [[12-metre class]] yacht ''[[Australia II]]'', [[1983 America's Cup]] winner.
The '''winged keel''' is a sailboat [[keel]] layout first fitted on the [[12-metre class]] yacht ''[[Australia II]]'', [[1983 America's Cup]] winner.


==Design==
==Design==
This layout was adopted by [[Ben Lexcen]], designer of ''[[Australia II]]''. Although Ben Lexcen "had tried the winged keel idea before"<ref>Bruce Stannard, ''Ben lexcen, the man, the keel and the cup'', Faber and Faber, 1984, {{ISBN|0-571-13396-7}}</ref>, there is ample evidence that it was computed and designed by a Dutch aerodynamicist at the Wageningen towing tank (Netherlands Ship Model Bassin).<ref name="Lloyd"/><ref name="Untold"/><ref name="Akerman"/>
This layout was adopted by [[Ben Lexcen]], designer of ''[[Australia II]]''. Although Ben Lexcen "had tried the winged keel idea before",<ref>Bruce Stannard, ''Ben lexcen, the man, the keel and the cup'', Faber and Faber, 1984, {{ISBN|0-571-13396-7}}</ref> there is conjecture that it was computed and designed by a Dutch aerodynamicist at the Wageningen towing tank (Netherlands Ship Model Bassin).<ref name="Lloyd"/><ref name="Untold"/><ref name="Akerman"/>


===Wings===
===Wings===
The lateral wings of Australia II are of moderate [[aspect ratio (wing)|aspect ratio]], forming a nearly horizontal [[foil (fluid mechanics)|foil]], the "[[wing]]", at the bottom to provide additional effective span, in the same way as the winglets on an aircraft.<ref name="Untold"/><ref name="Aero"/> Each wing acts as a [[Wingtip device|winglet]], effectively increasing the keel [[aspect ratio (wing)|aspect ratio]] therefore reducing the [[lift-induced drag]]. Because the yacht is heeled over when sailing upwind, the [[leeward]] foil attains more draft, which reduces the loss of efficiency that always occurs under heel. The wings were canted downwards at about 20 degrees, in order to promote proper hydrodynamic loading (lift) on each wing when sailing to windward. Upwind, it offered 30% less resistance due to side force.
The lateral wings of Australia II are of moderate [[aspect ratio (wing)|aspect ratio]], forming a nearly horizontal [[foil (fluid mechanics)|foil]], the "[[wing]]", at the bottom to provide additional effective span, in the same way as the winglets on an aircraft.<ref name="Untold"/><ref name="Aero"/> Each wing acts as a [[Wingtip device|winglet]], effectively increasing the keel [[aspect ratio (wing)|aspect ratio]] therefore reducing the [[lift-induced drag]]. Because the yacht is heeled over when sailing upwind, the [[leeward]] foil attains more draft, which reduces the loss of efficiency that always occurs under heel. The wings were canted downwards at about 20 degrees, in order to promote proper hydrodynamic loading (lift) on each wing when sailing to windward. Upwind, it offered 30% less resistance due to side force.


===Upside down keel===
===Upside down keel===
Line 12: Line 13:


===Shorter boat, more sail area===
===Shorter boat, more sail area===
Under the 12 metre class rule, the allowed sail area is an inverse fonction of the boat length and weight. Her stability advantage allowed ''Australia II'' to carry more sail although the boat was lighter.
Under the 12 metre class rule, the allowed sail area is an inverse function of the boat length and weight. Her stability advantage allowed ''Australia II'' to carry more sail although the boat was lighter.
Along with ''Australia II''{{'}}s efficient sail design, this winged keel was one of the factors contributing to ''Australia II''{{'}}s success. Total advantage offered by this concept on the race course was about 1 minute per upwind leg.<ref name="Untold"/>
Along with ''Australia II''{{'}}s efficient sail design, this winged keel was one of the factors contributing to ''Australia II''{{'}}s success. Total advantage offered by this concept on the race course was about 1 minute per upwind leg.<ref name="Untold"/>


==Application==
==Application==
Winged keels are generally found on high-performance sailboats if they are not prohibited by class rules. They are specially advantageous for heavy yachts with a lot of sail area (as 12-metre class boats), sailing upwind when the draft is limited by the class rule or by the requirement to be able to sail in shallow water, because in that case high righting moment and efficient side force are difficult to obtain. Downwind, the extra [[skin friction]] [[Drag (physics)|drag]] is a hindrance. Besides the performance benefits, winged keels can also be applied to pleasure boats as a way to reduce [[Draft (hull)|draft]], allowing for greater versatility when [[gunkholing|cruising in shallow waters]].<ref name="Untold" /><ref name="Aero" />
Winged keels are generally found on high-performance sailboats if they are not prohibited by class rules. They are especially advantageous for heavy yachts with a lot of sail area (as 12-metre class boats), sailing upwind when the draft is limited by the class rule or by the requirement to be able to sail in shallow water, because in that case high righting moment and efficient side force are difficult to obtain. Downwind, the extra [[skin friction]] [[Drag (physics)|drag]] is a hindrance. Besides the performance benefits, winged keels can also be applied to pleasure boats as a way to reduce [[Draft (hull)|draft]], allowing for greater versatility when [[gunkholing|cruising in shallow waters]].<ref name="Untold" /><ref name="Aero" />


==References==
==References==
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<ref name="Aero">J. W. Slooff, ''The Aero- and Hydromechanics of Keel Yachts'', Springer, 2015, {{ISBN|978-3-319-13274-7}}</ref>
<ref name="Aero">J. W. Slooff, ''The Aero- and Hydromechanics of Keel Yachts'', Springer, 2015, {{ISBN|978-3-319-13274-7}}</ref>
}}
}}

[[Category:Australian inventions]]
[[Category:Australian inventions]]
[[Category:Shipbuilding]]
[[Category:Shipbuilding]]

Latest revision as of 11:43, 14 October 2022

Winged keel of Australia II

The winged keel is a sailboat keel layout first fitted on the 12-metre class yacht Australia II, 1983 America's Cup winner.

Design

[edit]

This layout was adopted by Ben Lexcen, designer of Australia II. Although Ben Lexcen "had tried the winged keel idea before",[1] there is conjecture that it was computed and designed by a Dutch aerodynamicist at the Wageningen towing tank (Netherlands Ship Model Bassin).[2][3][4]

Wings

[edit]

The lateral wings of Australia II are of moderate aspect ratio, forming a nearly horizontal foil, the "wing", at the bottom to provide additional effective span, in the same way as the winglets on an aircraft.[3][5] Each wing acts as a winglet, effectively increasing the keel aspect ratio therefore reducing the lift-induced drag. Because the yacht is heeled over when sailing upwind, the leeward foil attains more draft, which reduces the loss of efficiency that always occurs under heel. The wings were canted downwards at about 20 degrees, in order to promote proper hydrodynamic loading (lift) on each wing when sailing to windward. Upwind, it offered 30% less resistance due to side force.

Upside down keel

[edit]

Note that, contrary to classic configurations, the keel of this boat is "upside down" under the hull (the root chord is smaller than the tip (bottom) chord) in order to minimize the hull-keel interaction and the loss of side force due to the proximity of the water surface.[5] The extra low-positioned lead in the upside down keel and wings gives a very low centre of gravity, increasing the righting moment (lateral stability) and allowing to carry more sail area.

Shorter boat, more sail area

[edit]

Under the 12 metre class rule, the allowed sail area is an inverse function of the boat length and weight. Her stability advantage allowed Australia II to carry more sail although the boat was lighter. Along with Australia II's efficient sail design, this winged keel was one of the factors contributing to Australia II's success. Total advantage offered by this concept on the race course was about 1 minute per upwind leg.[3]

Application

[edit]

Winged keels are generally found on high-performance sailboats if they are not prohibited by class rules. They are especially advantageous for heavy yachts with a lot of sail area (as 12-metre class boats), sailing upwind when the draft is limited by the class rule or by the requirement to be able to sail in shallow water, because in that case high righting moment and efficient side force are difficult to obtain. Downwind, the extra skin friction drag is a hindrance. Besides the performance benefits, winged keels can also be applied to pleasure boats as a way to reduce draft, allowing for greater versatility when cruising in shallow waters.[3][5]

References

[edit]
  1. ^ Bruce Stannard, Ben lexcen, the man, the keel and the cup, Faber and Faber, 1984, ISBN 0-571-13396-7
  2. ^ Barbara Lloyd, "Who really designed Australia II?", Nautical Quarterly, Spring 1985 Issue, NY
  3. ^ a b c d Joop Slooff, Australia II and the America's Cup, the Untold, Inside Story of The Keel, 2016, ISBN 978-1530590230
  4. ^ Piers Akerman, "Flying Dutchman who won America's Cup with a Keel", The Australian, April 2, 2016
  5. ^ a b c J. W. Slooff, The Aero- and Hydromechanics of Keel Yachts, Springer, 2015, ISBN 978-3-319-13274-7
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