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Hullspeed in Multihulls
What is the formula for the hull speed of a typical multihull?
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Hullspeed in Multihulls
Here is another more specific question.
What speed could you expect to do in a multihull with a 56' waterline? "Bart Senior" .@. wrote What is the formula for the hull speed of a typical multihull? |
Hullspeed in Multihulls
In article , Bart Senior .@. wrote:
Here is another more specific question. What speed could you expect to do in a multihull with a 56' waterline? "Bart Senior" .@. wrote What is the formula for the hull speed of a typical multihull? If it's a modern multi (cat or tri or proa?) and it's not overloaded.... damn fast. -- Capt. JG @@ www.sailnow.com |
Hullspeed in Multihulls
"Bart Senior" .@. wrote
What is the formula for the hull speed of a typical multihull? It's the same, just use a higher multiple (ie speed-length ratio). Bart Senior wrote: Here is another more specific question. What speed could you expect to do in a multihull with a 56' waterline? How is it rigged & how heavily is it loaded? Who is sailing it? How hard is the wind blowing? Is the water choppy? The usual hull speed formula is SQR RT(1.34*LWL) in words, multiply the waterline length by 1.34 and then take the square root of the resulting number, which is the hull speed in knots. The multiplier "1.34" is the 'speed-length ratio' mentioned earlier, most modern boats will beat that pretty easily. For an average fin-keel racer-cruiser, 1.5 is a better number to use (doesn't sound like much difference, but try it). Multihulls can hit speed-length ratios of 1.8 or higher. A hull that is very narrow, like a Navy destroyer or a Hobie cat, will not suffer as much drag from making waves. The cut-off point seems to be a length/beam ratio of about 8:1 so a really fast 56 foot catamaran will have hulls narrower than 7 feet (this sound wide, but think how many big cats have athwartship berths in the hulls). So your 56' cat might have a realistic sailing speed of 10 to 13.5 knots without doing anything exceptional, you could plan on passagemaking speeds in this range! For cats with good performance, the speed-length ratio might be 1.9 or higher. A better way to approximate the speed potential is a formula that includes displacement & sail area: take the hull speed formula & multiply it by the ratio of sail area's cube root to the displacement's fourth root {(SLR*LWL)^0.5}*{(SA^0.333)/(DISP^0.25)} It's interesting to play with these numbers and see the huge difference between conventional racer-cruisers and modern hi-tech sportsboats & multihulls. Fresh Breezes- Doug King |
Hullspeed in Multihulls
2.1 * SQRT [ LWL ]
The formula is 1.6 times that of a multihull. Granted there are many form factors. This is as good an approximation as the one for monohulls. Figure 60% faster than a monohull of equal LWL. A passage would take about 60% the time a monohull would need. A Laser on steriods, like an Open 60 monohull would do nearly as well and handle rougher weather better. The benefit of a big Cat is more comfort, a kinder sea motion. Where things seem to start getting interesting is heavy weather. "DSK" wrote "Bart Senior" .@. wrote What is the formula for the hull speed of a typical multihull? It's the same, just use a higher multiple (ie speed-length ratio). Bart Senior wrote: Here is another more specific question. What speed could you expect to do in a multihull with a 56' waterline? How is it rigged & how heavily is it loaded? Who is sailing it? How hard is the wind blowing? Is the water choppy? The usual hull speed formula is SQR RT(1.34*LWL) in words, multiply the waterline length by 1.34 and then take the square root of the resulting number, which is the hull speed in knots. The multiplier "1.34" is the 'speed-length ratio' mentioned earlier, most modern boats will beat that pretty easily. For an average fin-keel racer-cruiser, 1.5 is a better number to use (doesn't sound like much difference, but try it). Multihulls can hit speed-length ratios of 1.8 or higher. A hull that is very narrow, like a Navy destroyer or a Hobie cat, will not suffer as much drag from making waves. The cut-off point seems to be a length/beam ratio of about 8:1 so a really fast 56 foot catamaran will have hulls narrower than 7 feet (this sound wide, but think how many big cats have athwartship berths in the hulls). So your 56' cat might have a realistic sailing speed of 10 to 13.5 knots without doing anything exceptional, you could plan on passagemaking speeds in this range! For cats with good performance, the speed-length ratio might be 1.9 or higher. A better way to approximate the speed potential is a formula that includes displacement & sail area: take the hull speed formula & multiply it by the ratio of sail area's cube root to the displacement's fourth root {(SLR*LWL)^0.5}*{(SA^0.333)/(DISP^0.25)} It's interesting to play with these numbers and see the huge difference between conventional racer-cruisers and modern hi-tech sportsboats & multihulls. Fresh Breezes- Doug King |
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