Case Studies
San Francisco, CA - July 2001
Analysis using SPLASH from South Bay Simulation, Inc.
View
AVI movie (2.58 MB)
Dr. Warren Davis develops and applies computational fluid dynamics (CFD)
methods for aerodynamic and hydrodynamic analysis of aircraft and boat
designs. He was a design consultant to the AmericaOne syndicate, a contender
for the America's Cup 2000 in Auckland, Ns. Dr. Davis was involved in
the underwater design including the hull, and the keel, bulb, wing and
rudder appendages.
The goal of the design team was to reduce the underwater hull and appendage
drag, thus improving the boat's speed. Weather and water (waves) conditions
vary for different sailing courses, so this boat was optimised for the
course sailed in New sealand.
AmericaOne, 2000 America's Cup, Aukland, New sealand
Our Image of the Month is the result of a SPLASH analysis
of an AmericaOne yacht sailing upwind at 9.5 knots, heeled over 25 degrees.
SPLASH is a free-surface panel method (inviscid) CFD code developed by
South
Bay Simulations, Inc. The calculation was performed early in the design
process for AmericaOne before the first boat began construction.
In the image, calculated surface pressure coefficients are displayed on
the underwater appendages and contoured on the free water surface. The
hull's shaded surface is cut at the waterline, thus only the surface pressure
coefficients are visible underwater. The water surface contours show the
pattern of waves generated by the moving hull. A complete yacht is visible
in the animation with topsides hull and main and Genoa sails.
SPLASH is a numerical simulation of a tow tank test. A physical tow tank
test consists of obtaining yacht forces for a matrix of sailing speeds,
yacht heel and yaw, rudder and keel tab deflections. "Testing yacht models
in towing tanks is in many ways more demanding than testing of aircraft
in wind tunnels, particularly since the model is typically free to sink
(up and down) or trim (bow up or bow down)." Traditional physical model
tests in a towing tank are also very expensive and can easily eat away
at the limited budget of any design team.
Numerical model tests may deal more directly with uncertainties and complications
of predicting open water sailing. Numerical simulation can also yield
more consistent results in less time than physical testing.
Yacht performance benefit due to bulb-mounted winglets.
Recently there has been a bit of role reversal of CFD simulation
over expensive physical testing. "SPLASH played a lead role in the 2000
hull design, with predictions accurate enough to be relied upon for realistic
performance differences between designs, while physical testing was used
periodically to back up those results." To produce optimal performance
all these tools work best in complimentary roles.
Tow tank simulations require several hundred specific sailing points to
be analysed. An automated SPLASH analysis is done for each of those sailing
points. Scripting software collects and sorts all of the individual results.
SPLASH produces, for each test point sailing condition, the corresponding
flow solution and computed forces – integrated lift, drag, and vertical
force – and associated moments about all three axes (balanced against
the sail's contributions).
The scripting software then constructs Tecplot data files for the model
test results. Tecplot layout files produce a set of 15 plots, cross-plotting
all the force and motion data across the full range of variables – speed,
heel, yaw, tab and rudder. This process is critical to assessing the quality
of the data and to quickly compare performance results from other yacht
designs.
Young America, another America's Cup syndicate, also
used SPLASH and Tecplot in the design of their yachts.
Dr. Davis says, "It would be incredibly time consuming and
tedious to check the full output of a SPLASH tow tank simulation. It would
take several days. With Tecplot, I just glance through the output plots
and get my answers almost immediately."
Excerpts from:
Rosen, B. S., Laiosa, J. P., Davis, W. H. Jr., "CFD Design Studies for
America's Cup 2000," 18th Applied Aerodynamics Conference, Denver, CO,
Aug. 2000. (Download
587 KB PDF paper)
|
RSS Feeds
System Requirements
