There are different
vessel hull types for different uses. The efficiency of one may or may not cross over
into the other. Some hull design benefits are obvious, but their drawbacks may
not be entirely understood by the average wet boater. Keeping these facts in
mind, I will just try to keep the pros and cons of the various hull design
types simple. I’ll start with the most basic one first.
Hull or Monohull
The displacement hull
or monohull is simple in its form and function. Its name says it all. The hull
sits in the water and pushes the water away. The hull thus displaces the water.
The water doesn’t take this displacement attempt lightly. It pushes back on the
hull causing buoyancy and resistance. The good thing about this type of hull is
that it’s simple to design and build. That means that it is relatively
inexpensive to build as well. It also affords the most space to utilize within
the hull for compartments, equipment, cargo, and people. With enough
compartmentalization, this hull is the most buoyant and hardest to sink. The
drawbacks are simple to understand too. If you’re displacing so much water,
it’s very inefficient to propel it through the water. The hull also has a
maximum speed no matter how much power you put in it. That’s called the hull speed.
The tumble home hull is a type of displacement hull that you might commonly find on a simple canoe. It was employed in large wooden warships of old to deflect cannonballs, because the hull is angled inward toward the main deck just as soon as it leaves the water. This ancient deflection technology has been resurrected once again for use in large modern warships. This time it's to deflect radar waves instead of cannonballs.
The tumble home hull is a type of displacement hull that you might commonly find on a simple canoe. It was employed in large wooden warships of old to deflect cannonballs, because the hull is angled inward toward the main deck just as soon as it leaves the water. This ancient deflection technology has been resurrected once again for use in large modern warships. This time it's to deflect radar waves instead of cannonballs.
Planing Hull
The planing hull is
what you might choose to call the opposite of the displacement hull. The
planning hull is like a flat plane or flat hydroplaning hull. It sits on top of
the water and hydroplanes or skips along like a flat stone skipping over a calm
lake. It solves the inefficiency problem of trying to move all that water
aside, but there are some drawbacks. The buoyancy is much less than a displacement
hull, so you can’t put too much weight on it. It doesn’t have as much physical
inner hull space either. It may be fast, but it can’t go nearly as far as a
displacement hull.
Semi-Planing Hull
Now, if we combine a
displacement hull with a planning hull, we get the best of both worlds. That
hull is called a semi planing hull. These hulls are perfect for patrol boats.
They can carry enough fuel and supplies for long range missions, yet can get up
and go on a fast plane when more power is added. The bow or front of the hull
is most commonly shaped like a displacement hull, yet the after part or rear of
the hull is shaped more flat like a hydroplane. It’s a kind of magic hull that
displaces water at slow speed and skips on the surface at high speeds. There’s
another type of hull that does that magic trick.
Hydrofoil
The hydrofoil hull is
a displacement hull at slow speeds just like the semi planing hull is. It’s
also fast at high speeds just like the semi planing hull is. The difference is
that the semi planing hull’s rear flat portion skips along the surface of the
water. That results in a certain amount drag. The hydrofoil hull is completely
lifted out of the water. This eliminates all hull to water drag. How can you
lift a hull completely out of the water without using a crane? You use a type
of underwater wing called a hydroplane. The hull is equipped with these fixed
or deployable hydroplane fins. They lift the displacement hull up just like an
airplane wing lifts a fuselage up in the air. What are the down sides to this
great idea? They are mechanically more complex and therefore more expensive and
subject to higher maintenance. Due to these reasons, they are most commonly
found on smaller vessels. The advantage of small vessels is that they can get
into shallow waters. Hydrofoils tend to have at least some of their hydroplanes
fixed down. This limits their shallow water advantage. Many hydroplanes become
easily damaged and bent unexpectedly running aground. There’s also an
unexpected vibration issue that causes health problems to long term crew
members. In all fairness to their skippers, if you hit even the least benign
object either on the surface or just below the surface at high speeds, you’re
probably going to bend a hydroplane.
Catamaran
A much less complex
and less expensive way of lifting a hull mostly out of the water is to use two
narrow displacement hulls instead of trouble prone hydroplanes. Yes, the two
hulls have the inefficiency of displacing water, but if the hulls are long and
narrow you eliminate most of that problem. Now you connect the two hulls
together by a bridge. Then you build most of the rest of the vessel on top of
that bridge. The result is a fast and stabile hull design know as a catamaran.
If you have a lot of superstructure to build with a lot of weight, you might
want to add another long narrow monohull. Now you have a vessel known as a
trimaran. Both a catamaran and a trimaran have some drawbacks though. Their
pontoon type of long and narrow hulls tend to be very cramped in space. They
flood quickly when breached. If this happens in the case of a catamaran, you
can lose half of your buoyancy instantly. Fuel storage capacity and range is
limited for power catamarans. Even though their long twin monohulls are constructed
as efficiently as possible, they still have a maximum hull speed. If you could
only lift a catamaran a little higher out of the water without having to use
those damage prone hydroplanes, then you could get an even faster and more fuel
efficient catamaran.
M Hull
One way to lift a
catamaran a little higher out of the water is to capture some air under the
bridge spanning the two narrow monohulls. Now you’ve got a semi air cushion
lift hull. This hull is called an M hull. They call it that because the underside
of the bridge as well as the inside portions of the monohulls form a sort of M
shape. This unique shape captures the air at high speeds and directs it in such
a way as to help lift the hull out of the water. It’s good to get less drag,
but an M shape hull has to be more precise in its design and construction. It
also has all of the same limitation as the catamaran hull with a little less
drag. The vessel has to travel fast for all of that air cushion assisting to
work. This hull is what you might call a limited surface effect ship or SES. A
true SES hull sits completely on a cushion of air without any part of its hull
on or in the water. Those are known as hovercrafts.
Hovercraft
Hovercrafts sit on a
cushion air that they create through powered ducted air. That means that they
don’t have to move forward quickly to capture air like an M hull does.
Hovercrafts can hover at a standstill. They can also hover over many flat
obstacles like ice and smooth land. This makes them very versatile. They also
happen to be highly complex and expensive to build and maintain. They are
usually always loud and kick up a lot of spray. They also can’t handle rough
seas. That task is best left to the SWATHs.
SWATH
SWATHs are Small Water
Area Twin Hull vessels. Yes, they are catamarans, but with a twist. The twist
is that instead of the twin catamaran type hulls floating on top of the water,
they float under the water. How can something float under the water? Simple,
just add more weigh to shove the pontoons under the water. Now extend the
pontoons down deep so that the bridge connecting the pontoons stays high enough
out of the water. The result of this design is that the whole vessel is
actually floating on small pontoons under the water. That means that to a large
degree it doesn’t matter what the surface waves are doing. The ship remains
very stable despite the rough surface waves. I was around when these SWATHs
first came out. I was also around when many of them went right back to
unscheduled dry docks to reinforce their long deep pontoons and repair all of
their stress fractures. They have all of the catamaran drawbacks with the
addition of these high stresses. They’re also more expensive to construct.
WIG
Is
it a boat or is it an airplane? It's really a little of both that's called a
Wing in Ground effect or WIG. It's more related to an M hull in it's concept of
the physics going on here, but it's 100% out of the water like a hovercraft.
This unique surface effect craft deserves an honorable mention, because
eventually it has to come down and get wet! Maybe you can design a unique wet
boat too.
By Captain
Marc Deglinnocenti
OldArmada@Gmail.com
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