Bay,
Or boat level speed.
Quite a few boats here run bow down because they are not trimmed right. Too much weight fwd or too much weight everywhere. The pointy end does not support weight like the aft end.
I made the aircraft carrier remark and it was simply to point out the wide range of hull speeds.
But you're so very right about "hull speed" seeming a desireable speed. But hs IS a desirable speed for perhaps most real trawlers on this forum. Certainly not for FD hulls or planing hulls. For them it's actually a stupid speed. But there's so many grey zones between types some slip through. But for hulls between a NT and a GB hull speed is very often very good a speed IMO. For those that don't understand it hs is applicable to all FD and SD or SP hulls and even planing hulls in the same way. Of course it isn't.
But again as you point out hs is a buzz word on the docks or floats and those that use the word seem to be old salts so all the newbies start using the hs expression very often so-as to become old salts. We're like wolves and like to be part of the pack. A quick way in is to use the lingo in any sport or activity.
But to your point there are so many here that don't understand hs and throw the expression around like they know all about it, it could be better if no one ever mentioned it. But maybe it's OK as most have a vague idea what hs is. But to be even 1/2 a knot wrong is way off. And lastly to your point nobody is going to stop using the expression because it gets them closser to being an old salt. The holy grail.
So buck up, listen to and talk about hull speed.
Eric - I believe although we may own very different hull-shape boats that you and I are on the same page regarding importance of "Hull-Speed" as an important determining factor.
IMO... HS math formula accurately determines water drag against a hull's lwl by showing when that hull will reach break-even speed where it stops "slipping" through the water. Thereafter the hull begins to either "push" the water if it's displacement or to climb up on it's own bow wave to reach some level of plane if it's semi displacement or to go completely atop and over its bow wave if it is a planing hull.
Additionally, it is clearly evident that at speeds just over hull speed, but not up on plane, for SD or P hulls, is just about the least economical speed a boat can travel. Also D hulls should never bother to try to surpass HS... because that is simply not possible without enormous power and fuel cost for a knot or two faster of pushing an ever bigger bow wave.
I believe that for most hulls of each design type: By calculating hull speed and then cruising at 10% below hull speed is just about the best mix for fuel economy as well as relatively good amount of miles traveled. Of course one could cruise even slower and probably attain even better fuel mileage but time taken to reach a point may become exaggerated. Of course, slower the speed travel through water surface means that tide times and resulting currents become important factors too.
Example: Our Tollycraft planning hull has calced hull speed of 7.58 knots.
- At 10% hull speed reduction of 0.758 knot the cruising speed becomes 6.822. When traveling just below hull speed I maintain from 6.5 to 7 knots with both engines running. That gives me just over 2 nmpg.
- At further reduced speed of 4.5 to 5 knots with just one engine running our Tolly approaches 3 nmpg.
- At planning speed of 16 to 17 knots she gets 1 nmpg. But, we get there quickly!
There is a trade off for everything... including speed traveled as compared to fuel used, as compared to hull shape that is in place.
Of course the most fuel-efficient boats are those with full displacement and single screw having just enough power to reach hull speed.
Happy "Hull Speed" Daze! - Art
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