sailing yacht hull speed

Yachting Monthly

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Busting the hull speed myth

• julianwolfram
• December 13, 2021

Waterline length is not the defining factor in maximum boat speed that we all think it is. Julian Wolfram busts the hull speed myth

Modern hull forms, like this Jeanneau SO440, use chines to create volume forward while keeping a narrow entrance at the waterline

Every sailor is delighted when the breeze picks up and the boat really starts to get going with a bone in her teeth.

Julian Wolfram is a physicist, naval architect, former professor of ocean engineering at Heriot-Watt in Edinburgh and a Yachtmaster Offshore who has cruised and raced for 45 years

The crew will want to know how fast she will go and perhaps surreptitiously race her against any similar sized boat in the vicinity.

Speculation may start about what allows one boat to go faster than another – is it the hull shape or the sails?

It is easy to spot good, well-trimmed sails but what about the hull ?

The important part is not visible below the water surface. However there is one key indicator that is often very apparent – the waves generated by the sailing yacht.

When a yacht picks up speed the wave pattern around it grows and the greater the speed the bigger the waves .

The energy in these waves is proportional to the square of their height – double the height and the energy goes up by a factor of four.

This energy comes from the wind , via the sails and rig , making the hull push water out of the way.

If less of this wind energy was wasted in producing waves the yacht would go faster.

When a typical displacement monohull reaches a speed-to-length ratio of around 1.1 to 1.2 (speed in knots divided by the square root of the waterline in feet) up to half the wind energy driving it is usually wasted in generating waves.

The hull speed myth: Half angle of entrance

So how can we tell if a yacht will sail efficiently, or have high wave resistance and waste a lot of energy generating waves?

The answer starts back in the 19th century with the Australian J H Michell.

In 1898 he wrote one of the most important papers in the history of naval architecture in which he developed a formula for calculating wave resistance of ships.

Light displacement cruising boat: The bow of this Feeling 44 is finer than older cruising boats

This showed that wave resistance depended critically on the angle of the waterlines to the centreline of the ship – the half angle of entrance.

The smaller the angle the smaller the height of the waves generated and the lower the wave-making drag.

A knife blade can slice through water with minimal disturbance – drag the knife’s handle through and you generate waves.

The big hull speed myth

For a displacement hull the so-called ‘hull speed’ occurs when the waves it generates are the same length as the hull.

This occurs when the speed-length ratio is 1.34.

It is claimed that hulls cannot go significantly faster than this without planing. It is called ‘the displacement trap’ but is a myth.

Heavy displacement cruising boat: An older design has a bow that is several degrees wider

As an example, consider a 25ft (7.6m) boat that goes at 10 knots in flat water.

This is a speed-length ratio of two. That is the average speed over 2,000m for a single sculls rower in a world record time.

The reason for this high speed is a half angle of entrance of less than 5º. Hobie Cats, Darts and many other catamarans have similarly low angles of entrance and reach even higher speed-length ratios with their V-shaped displacement hulls.

These hulls also have almost equally fine sterns, which is also critically important to their low wave resistance.

The monohull problem

Now a monohull sailing yacht needs reasonable beam to achieve stability and, unless waterline length is particularly long, the half angle of entrance will inevitably be much larger than those on rowing skulls and multihulls .

In his 1966 Sailing Yacht Design Douglas Phillips-Birt suggests values of 15º to 30º for cruising yachts.

Many older cruising yachts with long overhangs and short waterline lengths, for their overall length, have values around the top of this range.

Busting the hull speed myth: A Thames barge is a similar length and beam to a J-Class, but its bluff bow, built for volume, makes it much slower. Credit: Alamy Stock Photo

Newer sailing yachts, with plumb bows, have somewhat smaller half angles and a modern 12m-long fast cruiser may have a value around 20º and a racing yacht 17º or 18º.

Size matters here as, to achieve stability, a little yacht is likely to have a bigger half angle than a large one, such as the German Frers-designed 42m (138ft), Rebecca which has a half angle of entrance of under 13º.

Rebecca also has a fine, elegant stern which helps minimise the stern wave – I’ll come back to sterns and stern waves.

Interestingly the half angle of entrance is not mentioned in the otherwise excellent 2014 Principles of Yacht Design by Larsson et al, although it is currently used as one of the parameters in the preliminary estimation of wave resistance for ships.

While it is still particularly applicable to very slender hulls, naval architects are not generally familiar with Michell’s work.

His formula for wave resistance involves quadruple integrals of complex functions.

German-Frers’ designed Rebecca has a half angle of entrance of just 18°. Credit: Cory Silken

These are not ‘meat and drink’ for your average naval architect, and only a few mathematically inclined academics have much interest in theoretical wave resistance.

Michell’s work is rarely, if ever, covered in naval architecture courses now.

Nowadays the emphasis is much more on numerical methods, high-speed computers and computational fluid mechanics (CFD) using the so called Navier-Stokes equations.

Examining these equations, which apply to any fluid situation, does not give any insights into wave resistance, albeit they can model wave resistance very well when used in the piecewise manner of CFD.

It is very easy to measure the half angle of entrance at the design waterline when a yacht is out of the water.

Take a photograph directly upwards from the ground under the centreline at the bow.

Busting the hull speed myth: Multihulls achieve high speeds due to fine hulls, light displacement and ample stability. Credit: Joe McCarthy/Yachting Monthly

Now blow this up on a computer screen, or print it off at a large scale, and measure the angle with a protractor.

Alternatively, if you have a properly scaled accommodation plan drawn for a level close to the design waterline this will yield a reasonable approximation of the half angle of entrance.

Unfortunately there is not a simple relationship between the fineness of the bow and the wave drag.

But, all other things being equal, the smaller the half angle the better.

It is easy to measure and is a useful parameter to know when comparing yachts.

Stern shape and hull speed

The half angle of entrance cannot be taken alone as a measure of wave drag, and the fairness of the hull and in particular the run aft is also critical.

Just as the half angle of entrance dictates the height of the bow wave, so the fineness of the stern is a key influence on the height of the stern wave.

Consider the water flowing around both sides of the hull and meeting at the stern.

Modern race boats, like Pip Hare ‘s IMOCA 60, combine a fine angle of entrance with wide, flat hulls for maximum form stability and planing ability. Credit: Richard Langdon

If these streams meet at a large angle the water will pile up into a high stern wave.

On the other hand if they meet at a shallow angle there will be less piling up. A fine stern can maintain a streamline flow of water.

However if the sides of the hull meet at the stern at a large angle then the streamline flow will tend to separate from the hull, leaving a wide wake full of drag-inducing eddies.

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In many modern designs the hull sides are not far off parallel at the stern and it is then the upward slope of the buttock lines that are critical and, again, the shallower the slope the better from a hull drag perspective.

The slope of the buttocks can easily be measured if the lines plan is available and a good indication can be obtained from a profile drawing or a photo taken beam on with the boat out of the water.

Drawing a chalk line parallel to the centreline and half a metre out from it will provide a buttock line that can be checked visually for fairness when the boat is viewed from abeam.

A rowing scull easily exceeds its theoretical max hull speed. Credit: Alamy Stock Photo

Again, the smaller the angle the better – provided the transom is clear of the water.

An angle of more than 17º will lead to separated flow and eddy making. This also happens if the transom is immersed.

The greater the immersion the greater the drag, so weight in stern lockers on modern boats can be critical.

Modern hull design

The modern wedge shape attempts to resolve the conflicting demands of a small angle of entrance, good stability and a fine stern.

The plumb bow extends the waterline forward and, with the maximum beam taken well aft, the hull forward can be relatively narrow, providing a low half angle of entrance.

The stern is wide, which helps achieve good stability, but at the same time the buttocks rise slowly at a shallow angle to the water surface.

This gives a smooth and gradual change in the hull’s cross section area ensuring the water flow remains attached to the hull and that the stern wave is kept low.

A modern cruising boat gains stability from a wide stern, but needs twin rudders

This wide, flat stern also helps surfing down waves and possibly planing.

Some designs have chines just above the design waterline which increases usable internal volume and gives a little more form stability when heeled.

However, as soon as the chine is immersed there will be separation along the chine edge as water will not flow smoothly around a sharp edge.

It is just not possible to get the chine perfectly aligned with the streamlines of the water flow in all sailing conditions and there will be some extra drag at times.

There are two downsides to the wedge- shaped hull.

Overloading aft will create a large increase in drag

First the boat has to be sailed at a small angle of heel to keep the rudder properly immersed and to avoid broaching. This can be offset to some extent by using twin rudders .

The second is that the weight must be kept relatively low.

This is because a relatively small increase in weight causes a big increase in wetted surface area at the stern and hence in the frictional drag which makes the boat slower, particularly in light airs.

This is the downside of slowing rising buttocks and the reason why dinghy sailors get their weight forward in a light breeze .

Displacement Length Ratios

Traditionally for sailing yachts the displacement-length ratio has been used as a measure of speed potential, partly because it is easy to calculate from the yacht particulars.

It is waterline length (in metres) divided by the cube root of displacement (in cubic metres or tonnes).

A heavy boat, such as the Heard 35, will have a value of about 4 to 4.8.

A more moderate displacement boat, such as the Hallberg Rassy 342 or Dufour 32 Classic, will have a value in the range 5 to about 5.5; whilst a racing boat may a value of up to, and even over, 7.

A heavy displacement cruising boat with a fair run aft is less affected by additional weight

However the displacement length ratio can be misleading as making a hull 20% deeper and 20% narrower will keep the displacement the same but will significantly reduce the half angle of entrance and the wave drag.

It is interesting to note a Thames barge in racing trim has the same length-displacement ratio as a J class yacht, but their speed potential is vastly different.

Finally I should mention the older ‘length-displacement’ ratio, which is quoted in imperial units.

This is calculated by dividing a boat’s displacement in tons (2,240 pounds) by one one-hundredth of the waterline length (in feet) cubed.

Credit: Maxine Heath

It is still used in the USA and should be treated with caution.

The myth that your boat’s speed is only restricted by it waterline length does a disservice to its designers, and does little to help you understand how to get the best from her when the wind picks up.

Have a look at how the boat is loaded, how you sail on the wind, your boat handling and how much canvas you ask her to carry and you may discover more speed than you expect.

The remarkable John Henry Mitchell

Pioneer of wave theory

It’s worth saying a little more about the remarkable John Henry Michell.

He produced a series of ground-breaking papers including one that proved a wave would break when its height reached a seventh of its length.

He was the son of Devon miner who had emigrated to the gold mining area near Melbourne.

He showed such promise that he got a scholarship to Cambridge.

He was later elected a fellow of the Royal Society at the age of 35 – not bad for the son of a Devonshire miner.

His brother George was no slouch either – he invented and patented the thrust bearing that is named after him.

The half angle of entrance became the traditional factor for assessing the fineness of hulls.

It is defined as the angle the designed waterline makes with the centreline at the bow.It varies from less than 5º for very fine hull forms up to 60º or more for a full-form barge.

At higher speeds, modest increases in the half angle can give rise to substantial increases in wave resistance.

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Hull Speed Calculator

Table of contents

Welcome to the hull speed calculator . If you've ever seen a boat go so fast that its nose started rising, then you've seen the concept of hull speed in action. In this article, we'll explain what hull speed is and what it means for a ship's design. Later, we'll show you how to calculate hull speed with the hull speed formula, so that you can work out how to calculate hull speed for your own boat.

What is hull speed?

Hull speed is the speed at which a vessel with a displacement hull must travel for its waterline to be equal to its bow wave's wavelength. A displacement hull travels through water, instead of on top of it as a planing hull (like a kiteboard ) would, thereby displacing water with its buoyancy as it sails. The pressure that this displacement exerts on the water creates a wave; this wave is known as the vessel's bow wave . A slow-moving boat's bow wave might make small waves, but, as the boat sails faster, the bow wave's wavelength λ \lambda λ grows. When the wavelength meets the waterline length (that's also when the bow wave's first and second crests are at opposite tips of the waterline), the boat is said to be traveling at hull speed. Take a look at the picture below to see what we mean:

Why does hull speed matter?

Although it's not perfect, hull speed remains a useful concept that can help us answer questions about how fast a sailboat can go, and the optimal amount of thrust you need to keep a boat moving forward.

A boat's hull speed limits how fast it can travel efficiently. When traveling at hull speed, the boat's bow wave and stern wave have synchronized and constructive interference occurs, which allows the boat to move very efficiently. However, at speeds greater than hull speed, a vessel's nose automatically starts rising as the vessel tries to climb its bow wave. This process is called planing , and it wastes lots of energy. Trying to move faster than the hull speed will therefore require more and more thrust (whether that comes from sails, rowing, or engines) in exchange for smaller and smaller gains in speed as more energy is wasted angling the boat upwards. Hull speed can therefore be said to impose a flat limit on how fast a sailboat can go.

Shortcomings of hull speed

Although the physics behind hull speed is sound, it is heavily dependent on the hull's shape. Long and thin hulls with piercing designs can easily break their hull speed without planing. Such hulls are found on:

• Catamarans; and
• Competitive kayaks.

A hull's design can enable it to circumvent the workings of hull speed. It is for this reason that hull speed is not used in present-day ship design; naval institutions nowadays favor more modern measurements of speed-to-length ratio, such as the Froude number .

How to calculate hull speed

The formula for hull speed only needs the length of the vessel's waterline in feet, denoted as L waterline L_\text{waterline} L waterline ​ . With this length, the vessel's hull speed in knots can be calculated with

If you want to instead work out exactly how long your new boat's waterline must be for it to have a certain hull speed, you can invert the formula to obtain

How to use the hull speed calculator

The hull speed calculator is just as easy to use as the formula.

Enter your vessel's waterline length into the first field. This is the length of your boat's hull at the height of the waterline. Your vessel's hull speed will then be calculated and presented in the second field.

You can also use the hull speed calculator backward to work out how long a vessel's waterline must be if you know its hull speed.

You can freely change the units of your measurements without interfering with the hull speed formula.

How can I increase my boat's hull speed without changing its hull?

Load your boat heavier! If you think about a normal displacement hull, it's usually narrower near the bottom than at the deck. So pushing it down with some weight will lengthen the boat's waterline, and so its hull speed is increased. Of course, heavier boats are harder to move, so while your loaded boat now has a higher hull speed, you would need more power to move it.

Waterline length

The length of the ship at its waterline.

The speed at which the ship's waterline length equals its bow wave's wavelength.

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Figure 2-1: Example of Sailboat Surfing [2]

The TRUTH of Hull Speed: How to Break the Sailing Speed Limit

Hull speed is bogus, but not because the math is wrong.  This formula supposedly predicts the maximum speed of a yacht based solely on length.  It gets discussed frequently in sailing yacht communities.  Surprisingly, hull speed is partially correct, with a very simple and strong theoretical basis.  But don’t sell yourself short; there are ways around hull speed limits.  Today we discuss the basis for hull speed and fill in the rest of the story.

1.0 Theory Behind Hull Speed

The hull speed theory predicts a maximum speed for sailing yachts from a simple formula.

Ever wonder where those coefficients came from?  They result from two interesting quirks of physics.  First, any waves generated by the hull have to move at the same speed as the hull.  Our boat generates two major sets of waves:  one at the bow, and one at the stern.  Once they spread away from the hull, they get to slow down.  Until then, they must do whatever is necessary to keep up with the boat.

And just how do they manage to keep up with the boat?  By changing their wavelength.  This isn’t the wave height.  It’s the distance from one wave crest to the next.  Our second quirk of physics:  that wavelength gets tied to the speed limit for the wave.  If the wave wants to go faster, it must stretch out longer, following this simple formula:

Where g is the acceleration due to gravity.  Plug in the constants, work out the unit conversions, and you get the formulas in Table 1.

But that formula only describes the speed limit for a wave, not a boat.  This is where we get to put the two ideas together.  As the boat goes faster, the waves at the bow and stern get longer.  When you reach hull speed, the bow wave lines up with the stern wave.  The two waves double up on you.  Your boat appears to sink down into one big wave trough. (Figure 1‑1)  The hull speed theory states your sailboat will not go any faster once this happens.

2.0 The Rest of the Story

If you leave hull speed at this simple theory, you miss all the good parts of the story.  So far, hull speed is this impenetrable limit, like the speed of light.  But physicists already imagined theoretical ways to get around lightspeed.  And this story has a few good parts that let us get around the hull speed limit.

It doesn’t break any rules to go faster than hull speed.  If you push beyond the speed limit, the wavelength gets longer than your boat length.  No law against that.  At this point, most boats start to surf on their own bow wave; nothing wrong with that. (Figure 2‑1)  No limiting formulas here.  Sure, hull speed is a difficult hump to get over, but the shape of your hull determines the resistance from those waves.  Not some magical formula.

Hull speed is bogus.  It predicts when you face a big hump, true enough.  But we reach too far when we assume this creates an impenetrable speed limit.  It only tells you a speed when the bow and stern waves get bigger.  So what?  Your boat sees big waves on a stormy day, and you go through those just fine.  The ultimate speed of your boat depends on only two things:  resistance and power.

3.0 What Really Makes Resistance

Resistance depends completely on the shape of your hull.  The best hulls are long and skinny; they minimize the size of your bow wave and stern wave.  To minimize wave resistance, we want a hull that cuts straight through the wave instead of bouncing over it.

With an efficient hull, hull speed becomes just another hump in the resistance graph.  A typical resistance graph for a ship looks like Figure 3‑1.  The humps happen when waves line up and add to increase your resistance.  You get multiple humps, and hull speed is just one of those humps.  The ship powers over the hump and continues to go faster, if you have the right hull shape.  Of course, getting the best hull shape becomes tricky due to the other major component:  viscous resistance.

Viscous resistance is basically surface friction, plus some extra pieces.  When the water runs along your hull, it generates friction, which slows you down.  Especially when you travel in the range of 0 – 3 knots, almost all your resistance comes from friction.  This is why many sailing hulls are shaped to reduce their underwater surface area as they heel over in light winds.  All part of the strategy to minimize surface friction.  Even at higher speeds, friction can form 20-40% of your total resistance.  The catch is that not all hull surfaces are equal.

Appendages are the worst source of viscous resistance, in my opinion.  Your bow thruster, rudder, propeller, and keel all form the extra pieces of viscous resistance, and they concentrate a lot of penalty into a small area.  Consider a bow thruster.  As the water runs over that, it ducks into the thruster tunnel, swirls around, and pops out all confused and turbulent. (Figure 3‑2)  All that motion takes energy.  Energy that slows down your ship.  Similar stories for the other appendages.  Sometimes, these little bits and pieces add up to more than the skin friction of your entire hull.  And don’t forget about wave resistance.  Put all the resistance sources together, and you see that going faster becomes increasingly difficult.

4.0 Limits on Power

To go faster, we need more power.  But as a sailing ship, all the power comes from those sails.  You might think to add larger sails.  Unfortunately, sails do not limit your maximum power.  The sail plan gets limited by the righting moment of your hull. [5] [6]  As the wind heels the boat over, the hull pushes back with a righting moment.  Try to push more power into the sails, and the boat just heels farther, dumping that power. (Figure 4‑1)  In extreme cases, this is how the wind capsizes a boat.  If you want more power in your sail plan, the first step is not larger sails.  The trick is more righting moment in the hull.

But how to get more righting moment from the hull?  Unfortunately, you need to increase the beam of your hull.  Except that increasing the beam also increases your wave resistance.  This is one of the many conflicts that yacht designs have to compromise on.    That is also why catamarans have a reputation for speed.  They get to combine long and skinny hulls (low resistance) with a huge righting moment (high power).  Though even they run into other limits.  The maximum speed of your hull is an integrated part of the vessel design.  It becomes a performance target, strategically decided by the naval architect.  Far more complicated than a simple formula.

5.0 Conclusion

With all the added evidence, why does the myth of hull speed persist.  Simply put, designers are not stupid.  We designers all recognize that any given boat has a point of diminishing return, where extra power barely adds any more speed.  That point of diminishing return often happens near hull speed.  This coincidence reinforces the belief that hull speed predicts a reliable limit.  Boats often top out near hull speed, but not exactly at hull speed.  Ship design has many tricks available to push faster than hull speed.  Don’t limit your expectations to a simple formula.

6.0 References

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What is the Average Speed of a Sailboat?

When I try to figure out the duration of whatever sailing trip I have in the making, I always need to know this one thing first: the average speed of a sailboat - especially with long journeys. If you have the same problem, this article is for you.

So what's the average speed of a sailboat? Most sailboats cruise at a speed of 4-6 knots (4.5-7 mph), with a top speed of 7 knots (8 mph or 13 km/h). Larger racing yachts can easily reach speeds up to 15 knots (17 mph or 28 km/h), with an average cruising speed between 6-8 knots (7-9 mph). Cruising speeds of over 8 knots are uncommon.

Different types of sailboats reach very different speeds. Of course, it all depends on wind conditions, current, and many other factors. Did you know that the speed of a boat is directly related to its length? The larger the boat, the faster it goes. I'll explain it to you later on, but first, more on average speed.

On this page:

Factors that determine speed, converting and calculating sailing speed, calculating the hull speed of your own boat, exceeding hull speed, amount of nautical miles, related questions.

So let's get a little more into detail on sailboat speed. The most important factor in determining the speed is the hull type. I have two rules of thumb for you. The first is: the less of the boat is under water, the faster it goes.

Here are the average cruising speeds for different hull types:

• Monohull - 6-8 knots
• Catamaran and trimarans - 9-10 knots
• Fastest monohull (world record circumnavigation) - 15.43 knots
• Fastest trimaran (world record circumnavigation) - 27 knots

Monohull - Your average sailboat is a monohull. Nearly all monohulls are displacement hulls. A displacement hull is under water, pushing the water away. This allows the boat to cut through the water more smoothly; this stabilizes the boat. If you want to make it go faster, you would have to raise the entire hull above the water. Later on I'll show you how to calculate the maximum hull speed of your boat.

Catamarans and Trimarans - These are planing hulls, meaning they are on top of the water. They displace less water, which is why they are faster. But a planing hull is less stable than a displacement hull. To compensate, catamarans and trimarans have two or three hulls, which makes them extremely buoyant. Since this is not your average sailboat I'll leave them out of this article.

The second factor is the length of the boat. It's the second rule of thumb: the longer the boat, the faster it goes. Each sailboat has a maximum hull speed, which it can't exceed (in theory). The hull speed is determined by the length of the boat.

Here are the maximum hull speeds for different monohull lengths:

Please note: the maximum hull speed isn't the average sailing speed. It's the upper limit (in theory - read on to learn more).

The third and perhaps most obvious factor of course is wind direction and speed. If you plan a large voyage, for example, an ocean passage, make sure to check the dominant wind and direction for your time of year. You want to make sure to have as much downwind as you can get, and a favorable current as well. This is why most sailors choose to go eastward instead of westward when sailing the world.

If you want to know why going eastward is smart, I encourage you to read my previous article on sailing around the world here .

How to calculate necessary sailing speed

So imagine you need to get to dock in time. It's 50 miles away. You need to arrive at 2100 hours. It's currently 1500 hours. Would be handy to know at what speed you need to sail to make it in time.

The formula is simple:

nautical miles / time = average speed necessary

2100 - 1500 = 360 minutes 360 / 60 = 6 hours Your average speed should be: 50 NM / 6 = 8.3 knots

Converting knots to mph and km/h

To convert knots to mph or km/h, simply multiply the knots by the ratio below.

1 knot = 1.151 mph 1 knot = 1.852 km/h

Great, we have a good general idea of what to expect from our trustworthy vessels. If you want to go deeper, you can try to calculate the maximum hull speed of your own boat. Calculating the maximum speed is actually very simple. Now is the time to get out your calculator.

You calculate the maximum hull speed (HS) by taking the length in feet (lwl), get the square root, and multiplying it by 1.34.

HS = √ lwl * 1.34 HS = Hull Speed lwl = length at waterline

So a 80 feet boat has a maximum hull speed of:

√ 80 * 1.34 = 12 knots

A displacement hull has a maximum hull speed. Hull speed is a theoretical speed that tells us what the maximum efficient speed is. Everything above that speed costs a lot more energy. If you power your boat by engine, you can exceed the speed by pushing the hull over your own bow wave (this requires a lot of horsepowers though, and it isn't good for your engine).

If you're sailing instead, you can exceed your hull speed with the help of the weather. Let's call these surfing conditions (sounds good). This might happen to you when you're sailing downwind and the current pushes you forward simultaneously. This helps you to overtake your own bow wave. If this happens, the wavelength gets longer than the hull length: the water can't get out of the way fast enough. As a result, the boat starts to plane, increasing water resistance at the front. Congratulations: you're surfing on your own bow wave.

The increase in speed won't be mind blowing however (about 1 knot). The truth is: a displacement hull is bound to its speed. It just costs to much energy to propel it through the water. It's made to cut, not steamroll the water.

Sailboats don't travel lightning fast, but they do travel 24/7. Because of this, they can cover quite a bit of distance. What distance are we actually able to cover with conservative speeds?

The average sailboat covers a distance of roughly 100 nautical miles (NM) , at a speed of around 4.5 knots. This equals 115 miles or 185 km.

1 NM is 1.852 km or 1.151 mile

You can calculate the distance per day by simply multiplying the speed in knots by 24 hours:

NM = knots * 24

Most sailboats cover anywhere between 100-180 NM per day. This means that a fast sailboat in ideal conditions can cover more than 200 miles. Impressive. However, anything over 180 NM is uncommon. We usually only see cruising speeds that high in races.

Here are the distances per day (NM) for different cruising speeds:

How fast can a sailboat go under power? The average speed of a sailboat under power is 4-5 knots (5 mph or 8 km/h). Most sailors switch to engine at sailing speeds below 6 knots, especially when on passage.

How fast do racing sailboats go? Racing sailboats can reach speeds of 30 - 50 knots (35-58 mph or 55-92 km/h). The record is set at 65.45 knots (75 mph or 121 km/h). They can beat wind speed because they have a planing hull instead of a displacement hull, making them a lot faster than average sailboats

Can a sailboat sail faster than the wind? Sailboats with a planing hull (multihulls) can go faster than wind. Displacement hulls (the average sailboat) can't beat the wind, or just slightly in surfing conditions.

Robert Tangney Kenmare Ireland

Just wondering if you could do a similar article on diesel powered boats.I have a Seaward 23 powered with two 1.6 mermaid engines.I normally do around 7_8 knots and was thinking of replacing them for more speed around 10_12 knots.what engines would I need. According to what I have read already I should be getting 10 knots cruising speed with a top speed of 12 knots.This is not the case and her bottom is very clean.Found your article very interesting.

Shawn Buckles

Hi Robert, thanks for your comment. You have quite a bit of power there, nice.

I wouldn’t know for sure what engine size you should get, this article is specifically about sailboats. Also, this is the maximum hull speed - what you could expect under ideal conditions. And that’s never the case - you have to deal with current, wind, and so on. So I’d say it sounds about right.

If by diesel-powered boats you mean a powerboat, I currently don’t write about powerboats. Maybe I will in the future, but I won’t make any promises for now.

Thanks again and good luck with your upgrade!

I’m not sure if you use a different way of calculating time in nautical terms (Not a sailor myself, just curious about sailboats), but in the ‘How to calculate necessary sailing speed’ my math would say there’s 6 hours = 360 minutes from 1500 hours (3 PM) to 2100 hours (9 PM), not 600 minutes = 10 hours. Am I missing something?

Hi Ben L, That’s exactly right, it was a math error on my part. Thanks for pointing it out, I have updated the article.

Catamarans and trimarans are PLANING boats?! How long have you been sailing? Three days? :-)))

Matas Pacevicius

Just wanted to point out a typo. At hull speed of 5NM you travel 120NM and 138miles (not the 115 written) per 24hrs. Thank you for your articles. I’ve been dreaming of circumnavigation for years and am in the process of designing and building my own sailboat for the feat. I would love to build and sail a sailboat on which I could live almost anywhere in the world. I currently reside on the Gulf coast of Florida and am surrounded by beautiful warm waters that beckon me to explore them. Hopefully in the followings 5 years I will be sailing into the Caribbean in my self-built traveling home in the water. I wish to call the oceans home and soon the entire world. I plan to cross the Atlantic from the Caribbean on my first leg around the world. Would you recommend sailing throughout the Mediterranean? Any ideas on how’s to make money along the way?

I’ve worked all my life, struggling. Now 56y.o. staring at becoming a jobless wanderer in the next couple of months, maybe pick up a used boat. I am just really curious how some people have the time and place to design, build, and then sail around. Tell me your secrets…

Benjamin Lindner

Hello Shawn;

You have an error in your table above: 5 Knots = 120 NM BUT DOES NOT EQUAL 115 MILES.

Thank you Ben

Carlos Alberto Molinelli

But WHY is it a maximum speed for displacement boats in quiet waters, responding to this old formula? It is because the speed increases, the water displaced forms waves. At slow speed there are several along the hull. At fast speed there are only two: one at the bow and another an the stern. If the boat tries to go faster, the stern wave would go more farther but the hull would lose sustentation. It better explained with a picture. Look for boats going fast. You will see only two waves.

Robert Flores

Getting close to retirement and want to get a sailboat with some power. Thinking about sailing lakes and coastal. Looking at the macgregor 26M and seaward 26rk. What recommendations do you have ?? Or things to think about. I am one for safety. Best regards Robert

Ronald Ernst van Dijk

Thank you. Very well explained in clear language, including the usual conversions between knots, miles and kilometers. It helps understanding the physics of sailboats and what to expect in terms of speed. I have just completed building an 18 feet wooden gaff rigged yawl (design by François Vivier) for single handed coastal sailing in Malaysia, the country where I live. Your “rule of thumb” about HS = Lwl * 1.34 seems to work well, although I have to further try it out with different wind speeds and sailing on a reach or down wind.

Your website is an ad horror show to the point it is not usable any more. Ads do have their place and purpose, just like food needs salt. But in your case there is more salt then there is food. Moderation is key.

Ara Houston

Hello improvesailing.com owner, You always provide helpful information.

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Hullspeed and the Speed/Length Ratio

So what gives one boat better hullspeed than another? This question was pondered long and hard by William Froude (1810 to 1869), a British engineer who had a special fascination with the sea and ships.

Funded by the Admiralty, who were clearly very keen to get some answers to this question, he built a tank testing facility at Torquay, where he experimented with various model hull forms.

As an early expert in model analysis he was well acquainted with the 'law of mechanical similitude' , which demonstrates among other things that there are few linear relationships in hull design.

So just what is the answer?

Let's take a look...

Hullspeed and the Matchbox Analogy

Consider your hull as a matchbox - not wonderfully efficient hydrodynamically, but stick with it for a moment.

Dissatisfied with the constraints of matchbox living, you decide to double its size. You add another matchbox ahead to double its length, two alongside to double its beam and four on top to double its draft.

Now wetted area has increased by four, volume and displacement by eight and stability - as the product of its mass and acceleration - has increased sixteenfold.

So by doubling a hull's dimensions, wetted area is squared, displacement is cubed and stability increases by the power of four.

With this knowledge and that gained by carefully measuring applied force and resultant movement, Froude was able to both calculate and demonstrate that a relationship existed between hull speed and waterline length - that relationship being known and described in the metric world as 'Froude Numbers'.

The Speed/Length Ratio

However, most of us more accustomed to units of feet and knots are probably more familiar with the Froude Number's close relation - the Speed/Length Ratio.

S/L Ratio = hullspeed (in knots) divided by the square root of the waterline length (in feet)

This discovery enabled Froude to compare the performance of boats of different length. For example a 25ft sailboat moving at 5 knots would have the same S/L Ratio at a 100ft patrol boat steaming along at 10knots, and consequently both would develop the same resistance per ton of displacement at those speeds.

For Froude's models, having no rig above the waterline to create windage, this resistance was caused by two principal factors; hull drag and wave making resistance.

Maximum Hull Speed

Maximum hull speed (in knots) = 1.34 x the square root of the waterline length (in feet)

These figures relate to a boat in displacement mode. If sufficient power can be applied to overcome hull drag and enable the boat to plane, then other criteria will affect ultimate hullspeed.

Any Questions?

What is the theoretical hull speed of a non-planing boat?

The theoretical hull speed is the maximum speed that a non-planing boat can achieve in displacement mode, when the wavelength of its bow wave is equal to its waterline length. Beyond this speed, the boat will encounter increasing wave resistance and will need more power to overcome it.

What factors affect the theoretical hull speed of a boat?

The main factor that affects the theoretical hull speed of a boat is its waterline length, which determines the wavelength of its bow wave. The longer the waterline length, the higher the theoretical hull speed. Other factors that may influence the actual speed of a boat include its hull shape, displacement, draft, trim, sail area, wind and sea conditions, and propeller efficiency.

What is the difference between planing and non-planing boats?

Planing boats are boats that can lift themselves partially or fully out of the water and ride on top of their own bow wave, reducing their wetted surface area and drag. Planing boats can exceed their theoretical hull speed and reach higher speeds with less power. Non-planing boats are boats that remain fully submerged in the water and cannot climb over their own bow wave. Non-planing boats are limited by their theoretical hull speed and require more power to increase their speed.

What is the 'half angle of entrance' and how does it affect wave resistance?

The half angle of entrance is the angle between the waterline and the centerline of a boat at its bow. The smaller the half angle of entrance, the finer the bow shape and the lower the wave resistance. A fine bow can slice through water with minimal disturbance, while a blunt bow can generate large waves and drag. The half angle of entrance is one of the key factors that determines the wave-making resistance of a boat.

How can I increase the speed of my non-planing boat?

There are several ways to increase the speed of your non-planing boat, such as:

• Increasing your sail area or using more efficient sails;
• Reducing your displacement or weight;
• Optimizing your trim or balance;
• Improving your propeller efficiency or reducing your propeller drag;
• Choosing a finer or longer hull shape;
• Sailing in favorable wind and sea conditions.

What are some common misconceptions about hull speed?

Some common misconceptions about hull speed are: - Hull speed is a fixed limit that cannot be exceeded by non-planing boats. In reality, hull speed is a theoretical estimate that can be surpassed by some boats with sufficient power or sail area, but at the cost of increased wave resistance and drag.

• Hull speed is the same for all boats with the same waterline length. In reality, hull speed can vary depending on the hull shape, displacement, draft, and trim of the boat, as well as the wind and sea conditions;
• Hull speed is the optimal speed for non-planing boats. In reality, hull speed is often too high for non-planing boats to maintain efficiently or comfortably, especially in adverse conditions. A lower speed that minimizes wave-making resistance and maximizes fuel or power efficiency may be more desirable.

The above answers were drafted by sailboat-cruising.com using GPT-4 (OpenAI’s large-scale language-generation model) as a research assistant to develop source material; to the best of our knowledge,  we believe them to be accurate.

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Hull speed is a phenomenon of displacement boats, and not of planing boats. Most sailing boats and all ships displace water—move it aside—as they plow through it. Planing craft, such as most motor boats, glide over the top like a surfboard. It takes more energy to push water aside than it does to slide over the top of it, and so displacement boats move at a more sedate pace than their lighter planing cousins. Some small sailing boats can be made to plane, but the general rule is that sailing boats are of the displacement type. Hull speed is usually an upper limit to the speed of displacement boats.* It is unsurprising that such a limit exists: we have seen how drag increases with speed, and so sooner or later drag will balance out the drive force and a sailboat will not be able to go faster. Yet there is a surprise in store for those of you who are not familiar with sailing: the hull speed of a given boat depends on its hull length at the waterline. It is not obvious from a simple consideration of drag why this should be so, but it is a well-attested fact, often quoted in the sailing literature, that the maximum natural speed of a displacement boat (in knots) is 4/3 the square root of waterline length in feet.

A key feature of the phenomenon, again well known to any sailor, is that hull speed has been reached when the bow wave of the boat lengthens to the waterline length. At lower speeds, there may be three or four complete waves seen to lap along the boat hull, but this number decreases as the boat picks up speed and reaches, pretty closely, one complete wave by the time the boat reaches her hull speed. It may be possible for her to go faster than hull speed, but this requires a disproportionate amount of effort. In other words, the hydrodynamic drag

* There is one trick by which a small displacement boat can exceed hull speed without expending enormous effort, and that is by surfing. Riding along the front of a wave is not the sole preserve of surfboards.

Figure 6.1. (a) Your hull-speed raft, viewed from above. Note the direction of motion. (b) When the bow wavelength is less than the distance between the long beams, drag is reduced compared to the case of (c). In (c) bow wavelength equals the distance between beams because the aft beam is more submerged. So hull speed is reached when hull length equals bow wavelength. Consequently, hull speed is limited by hull length.

force that is acting to hold back the boat increases rapidly once hull speed is reached. My goal in this section is to explain to you, in simple physics terms, why these phenomena occur.

Which is why I have press-ganged you into service onboard the undignified vessel illustrated in figure 6.1. She is a wooden raft with two long logs fore and aft that stretch way beyond her beam. These logs are not there to provide flotation, please note—we will suppose that the raft has enough buoyancy without them—but rather to illustrate hull speed. You set the primitive sail and drift off to the right. The forward log generates a bow wave which spreads out in the wake, as waves do. You notice something that you have seen many times before in other craft: the bow wave size (amplitude) increases as the vessel speed increases. This makes sense because the hull is pushing water aside, the displaced water has to go somewhere, and the faster you go, the more water is moved. So the wave size increases. Now you pick up speed, and so the wavelength of the wake, as observed alongside your hull, stretches out until exactly one wave lies between the two extended logs at bow and stern. The raft speed that gives rise to this condition is her top speed, you

Figure 6.2. Your hull-speed barge. Bow waves forward of the center of gravity, CG (open circle) exert a buoyancy force (vertical arrows) proportional to wave height that acts to rotate the barge hull counterclockwise. Similarly, waves aft of the CG act to rotate the hull clockwise. If we can assume that drag forces are proportional to counterclockwise torque (a dominant CCW torque means that the barge is climbing a hill created by its bow wave), we can show that hull speed occurs when bow wavelength equals hull length.

find. It is clear why: the aft log is now submerged, and so experiences more drag than it did earlier, when there was no wave crest at the hull stern (see fig. 6.1). So, drag force peaks when bow wavelength equals hull length, in this simple example.

Now we are able to see where the old formula for hull speed comes from. The speed of a bow wave, or of any other surface water wave,1 is c where c2 = gk/2p. Here l is the water wavelength, and g is the constant acceleration due to gravity. Now the raft speed, v, equals the water wave speed, c, so that v = VgL/2p (since hull length, L, equals water wavelength at hull speed, as we just saw). Substitute numbers and we arrive at the old formula.

The ungainly raft has served her purpose, and you can now abandon her. The lesson learned is intuitive, and yet it gives us a basis for understanding quantitatively what hull speed is about. Now I can do another calculation, this time a little more realistic. The math is more involved (you need not wade though it), but the basic idea is again quite intuitive. Figure 6.2 shows the profile of a steep-sided hull plowing through water and generating a bow wave, which oscillates along the line of the hull. This vessel is kept afloat by the buoyancy force, and we can see that the buoyancy force is going to be different at different points along the line of the hull because the wave height varies along the hull. Buoyancy that acts forward of the hull CG (shown in fig. 6.2) will create a counterclockwise torque that tends to twist the hull about the CG—trying to make it do a backflip. The buoyancy force aft of the CG produces a torque that acts in the clockwise sense. These two more or less cancel* but not quite. If the counterclockwise buoyancy torque is just a little bigger than the clockwise torque, the boat will tilt backwards, until her stern goes deep enough to generate a compensating torque. We would then be left with a boat that is going uphill, trying to reach the crest of her own bow wave.

Where am I going with all this? Roughly speaking, counterclockwise torque equates to uphill motion, and uphill motion leads to increased drag, for reasons that will soon be made clear. So, I am saying that increasing the unbalanced counterclockwise torque generated by a bow wave will increase drag. If this increase should suddenly take off at a certain speed, then we have found our hull speed. In fact, I can calculate the torque generated by the bow wave. You can see that as the bow wavelength changes, the torque will also change because the manner in which buoyancy force is distributed along the hull length changes with wavelength (fig. 6.2). The results of this calculation are plotted in figure 6.3. (For those interested, the math is provided in this endnote 2 in sufficient detail for you to reproduce the calculation.2) In figure 6.3 we see once again that drag force takes off for water wavelengths exceeding hull length, more or less.3

For simplicity, the hull of figure 6.2 was given vertical sides, but most boats don't have vertical sides, for a host of reasons. Recall that, in the Age of Sail, ships of the line were given a tumblehome cross section to deter boarders. Nowadays we are less likely to have to repel nefarious enemies swarming over our gunwales with cutlass in hand, casting a single bloodshot eye (the other being patched) in search of our gold doubloons. Hull sides are angled but the other way, with cross sections resembling a martini glass rather than a brandy glass. In plain language: more V-shaped. Here are some physics reasons for different hull cross sections.

——'Rounded hull bottoms are stronger than V-shaped hulls, but the latter will be deeper for the same displacement and so will better resist leeway.

*Just as well, because backflipping boats would be pretty uncomfortable.

0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 Water wavelength / L

Figure 6.3. Hull speed is limited by drag. In the simple model described in the text, the drag increases with water wavelength, l, as shown (L is hull waterline length). Here, drag force is set arbitrarily to 1 at zero speed. If the bow wave is assumed to have constant amplitude, independent of speed, then drag changes with speed as shown. For a more realistic model, with bow wave amplitude increasing with speed, the curve looks similar. In this simple model, hull speed occurs at l « 1.2L because for longer waves (higher boat speed) the drag force becomes too strong.

•—A large deck area is desirable, but large hydrodynamic drag is not. For a hull of a given displacement, the choice of hull shape is constrained by the trade-off between these two characteristics. •—'An angled hull—say one that is V-shaped—will have greater reserve buoyancy. That is, the righting moment will increase as the hull heels further and further. •—'During heeling, the waterline along an angled hull will not be symmetric about the longitudinal axis; the port side waterline length and shape will be different from that on the starboard side. This asymmetry can assist the boat to head up while heeling. Thus, even without aerodynamic assistance from her sails, a boat may automatically

point to windward when heeling solely because of hydrodynamic forces acting on the hull. •—'Different angled hull shapes beneath the waterline assist with planing. For certain boats, such as racers, this is important because planing requires less displacement, less wetted area, and so less drag—and hence increased speed.

The physics of angled hull shapes casts an interesting light on the capabilities of some ancient ships . Certain ancient ships were built with a lot of overhang at the bow and stern, but this practice is usually thought to have been of little value for the old square-riggers because these ships were supposed to be nippy only when running or on a broad reach. Today, such hull shapes are utilized to increase hull speed while heeling because the waterline length is increased when the hull is heeled over. This lengthened waterline increases boat speed on a beam reach, for example. It seems plausible to suppose that ancient vessels with overlapping bows and sterns may have been capable of traveling across the wind at speed. Indeed, such a hull design offers no other advantage for these square-rigged vessels. (An overhanging bow and stern increases deck area, but for merchantmen—and in ancient times most of the sailing ships were merchant vessels because warships were oar-powered—deck area was not such a big deal. Volume of the hold was what mattered.) For a downwind point of sail, extended hull length above the waterline will increase pitching motion when traveling downwind; this is bad, and yet the overhanging bow and stern must have conferred some advantage or these ancient ships would not have been built this way.

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Readers' Questions

Is it possible for a displacement boat to exceed hull speed?

No, it is not possible for a displacement boat to exceed its hull speed. Hull speed is the theoretical maximum speed that a displacement boat can reach, and it is determined by the length of the waterline. When a boat exceeds its hull speed, it starts to climb up on its own bow wave and create excessive drag, making it difficult to go any faster.

What can you say about the speed of a boat that makes a bow wave?

The speed of a boat that makes a bow wave is usually quite fast, as the bow wave is usually associated with a boat moving at high speeds.

How to calculate hull speed?

Hull speed, also known as displacement speed, is the speed at which a boat hull moves through the water. It is calculated by taking the square root of the waterline length of the boat in feet and dividing it by 1.34. The formula is: Hull Speed = √LWL / 1.34 where LWL = waterline length in feet.

What is maximum hull speed for a boat?

The maximum hull speed for a boat is typically 1.34 times the square root of the waterline length of the boat in feet. For example, the maximum hull speed for a boat with a waterline length of 20 feet would be about 24 knots (1.34 x √20).

Why catamarans sail faster than hull speed?

Catamarans sail faster than hull speed because of their unique hull design. Their twin hulls provide greater stability and lift than a single hull, which results in less drag on the boat. This reduced resistance allows the boat to move more quickly through the water, resulting in higher speeds than what is normally achieved with a traditional hull design. Additionally, the width of the catamarans hulls also distributes the weight of the boat more evenly, which further reduces drag and increases speed.

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Hull Speed Calculator

Introducing the hull speed calculator: a game-changer developed by newtum.

Welcome to our Hull Speed Calculator tool page. It's designed to help you understand and calculate the theoretical speed a displacement hull can move efficiently through the water, based on its length. Get ready to enhance your boating knowledge and make informed decisions!

Understanding the Concept Behind this Tool

The Hull Speed Calculator is a valuable tool for sailors and boat builders. It provides a theoretical estimate of the maximum speed a displacement hull can move efficiently through the water. This is based on the length of the waterline. It's an essential tool for optimizing performance and fuel efficiency.

Unraveling the Formula: Hull Speed Calculation

Let's delve into the formula of our Hull Speed Calculator. This formula is pivotal in calculating the maximum speed a boat can achieve efficiently. Understanding this formula not only enhances your knowledge but also helps in making informed and efficient boating decisions.

• The Hull Speed is calculated using the formula: Speed = 1.34 * √LWL
• LWL stands for Length of Waterline.
• The constant 1.34 is derived from the physics of wave patterns created by a moving hull.

Step-by-step Guide to Using the Hull Speed Calculator

Our Hull Speed Calculator tool is user-friendly and provides reliable results in an instant. Just follow the simple instructions below and you'll be calculating hull speed like a pro in no time!

• Enter the Length of Waterline in the given field.
• Click on 'Calculate' button.
• The Hull Speed will instantly be displayed.

Unveiling the Exciting Features of our Hull Speed Calculator

• User-Friendly Interface
• Instant Results
• Data Security
• Accessibility Across Devices
• No Installation Needed
• Examples for Clarity
• Versatile Queries
• Transparent Process
• Educational Resource
• Responsive Customer Support
• Regular Updates
• Privacy Assurance
• Efficient Retrieval
• Language Accessibility
• Engaging and Informative Content
• Fun and Interactive Learning
• Shareable Results
• Responsive Design
• Educational Platform Integration
• Comprehensive Documentation

Exploring the Applications and Usages of our Hull Speed Calculator

• For sailors, to understand the speed potential of their boat.
• For boat builders, to optimize the design for maximum efficiency.
• For boat buyers, to make informed purchase decisions.
• For educational purposes, to understand the physics behind the motion of boats.

Illustrating the Hull Speed Calculator Formula with Specific Examples

Example 1: If the Length of Waterline (LWL) is 30 feet, using the formula, Hull Speed = 1.34 * √30. Hence, the Hull Speed is approximately 7.34 knots.

Example 2: If the LWL is 45 feet, the Hull Speed = 1.34 * √45. Thus, the Hull Speed is around 9.02 knots.

Securing Your Data with the Hull Speed Calculator

As we conclude this guide, we want to assure you of the utmost security while using the Hull Speed Calculator. Since the tool runs entirely on JavaScript and HTML, the data never leaves your computer, making it completely secure. The tool does not process any data on the server, ensuring your privacy. The Hull Speed Calculator is an effective and secure tool to understand the relationship between a boat's length and its maximum speed, aiding in informed decision making and efficient sailing.

Frequently Asked Questions (FAQs)

It is a tool that provides a theoretical estimate of the maximum speed a boat can achieve efficiently based on its waterline length.

The tool uses the formula 1.34 * √LWL to calculate the hull speed.

It helps sailors, boat builders, and buyers to make informed decisions and optimize performance and efficiency.

Yes, the tool runs entirely on JavaScript and HTML, so the data never leaves your computer and is completely secure.

Yes, the Hull Speed Calculator is completely free to use.

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What is Hull Speed?

Published Sept 27, 2021

Hull speed is a myth, but not for the reason that the math is incorrect. This formula is said to determine the maximum speed of a boat simply based on its length. It is commonly addressed in sailing yacht communities. Surprisingly, hull speed is approximately correct, with a straightforward and robust theoretical basis. However, do not sell yourself short; there are ways to circumvent hull speed restrictions. Today, we’ll explore the fundamentals of hull speed and finish the story.

Hull Speed Theory 

The hull speed theory uses a simple formula to predict the top speed of sailing yachts.

Hull Speed Formula [1]

Have you ever wondered how those coefficients came to be? They are the outcome of two fascinating physics anomalies. To begin, all waves created by the hull must travel at the same velocity as the hull. Our boat produces two distinct sets of waves: one in the bow and another at the stern. They begin to slow speed once they spread away from the hull. They must do all it takes to keep up with the boat till then.

And how exactly do they keep up with the boat? By altering their frequency. This is not the height of the wave. It is the distance between successive wave crests. Our second physics oddity is that the wavelength is proportional to the wave’s speed limit. If the wave wants to go quicker, it must extend out longer, as indicated by the following simple formula:

Equation 1:

Where g denotes gravity’s acceleration. By substituting constants and doing unit conversions, you obtain the formulas in Table 1.

However, that calculation applies to the speed limit of a wave, not a boat. This is the point at which we bring the two concepts together. The waves in the bow and stern become larger as the boat speeds up. When the hull speed is reached, the bow wave coincides with the stern wave. The two waves combine to overwhelm you. Your vessel looks to plunge into a single large wave trough. According to the hull speed theory, once this occurs, your sailboat will not accelerate any further.

The Real Story

If you stop at this simple notion, you will lose out on all the interesting parts of the story. Thus far, hull speed has acted as an impenetrable barrier comparable to the speed of light. However, physicists have already envisioned possible techniques to circumvent lightspeed. And this story contains a few redeeming features that enable us to circumvent the hull speed limit.

It is legal to travel faster than the hull speed. If you exceed the speed restriction, the wavelength becomes longer than the length of your boat. There is no law prohibiting this. At this point, most boats begin surfing their own bow wave; there is nothing wrong with that. There are no limiting formulas in this case. While hull speed is a significant hurdle to overcome, the design of your hull dictates your resistance to those waves. Not some enchanted formula.

Hull speed is a fabrication. It accurately forecasts when you may encounter a significant stumbling block. However, we go too far in assuming that this results in an impenetrable speed restriction. It only indicates a speed when the bow and stern waves increase in size. What is the point? On a stormy day, your boat encounters large waves, which easily navigate. Your boat’s top speed is determined by only two factors: resistance and power.

What Ultimately Causes Resistance

Resistance is entirely determined by the shape of your hull. The ideal hulls are long and narrow; they reduce the size of your bow and stern waves. To decrease resistance from waves, we want a hull that slices through them rather than bouncing over them.

With an efficient hull, hull speed becomes a blip on the resistance graph. The humps occur when waves collide and contribute to your resistance. You encounter numerous humps, and hull speed is just one of them. If the ship has the proper hull form, it powers over the hump and continues to accelerate. Naturally, achieving the optimal hull shape becomes more challenging due to the other critical component: viscous resistance.

Viscous resistance is essentially surface friction with a few more components. When water flows along the hull of your boat, it creates friction, which slows you down. Almost the bulk of your resistance, particularly when traveling at speeds between 0 and 3 knots, comes from friction. This is why many sailing hulls are shaped so that they can heel over in light winds. All of these factors contribute to the approach of minimizing surface friction. Even at higher speeds, friction can account for between 20% and 40% of total resistance. However, not all hull surfaces are created equal.

Appendages, in my opinion, are the worst cause of viscous resistance. Your bow thruster, rudder, propeller, and keel all contribute additional pieces of viscous resistance, concentrating a significant amount of penalty in a tiny region. Take a bow thruster as an example. As the water passes over there, it enters the thruster tube, swirls about, and emerges confused and tumultuous. All of this movement requires energy. The energy that causes your ship to slow down. Similar stories apply to the remaining appendages. Occasionally, these minor details add up to more than your entire hull’s skin friction. Additionally, do not overlook wave resistance. When you add up all the sources of resistance, you’ll notice that traveling faster becomes increasingly difficult.

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Ben Shank December 12, 2007

(submitted as coursework for physics 210, stanford university, fall 2007).

If you've spent any time near a commercial port, you have no doubt watched barges carrying cargo back and forth and seen the great mound of water that builds up at their head when they are under way. Although their massive wake helps keep the local population of JetSkiers in check, it comes at considerable expense. All of the energy transferred to those waves must be replaced by the engines to maintain a constant speed. In essence, the barge must push the water in its path aside to make headway. The inefficiency with which flat-nosed barges do this makes their wake particularly noticeable, but all ships that float by displacing water must displace different water in order to move forward. From the bow and the stern of every moving displacement hull comes a series of waves called a wake that carries away the energy of displacement. These waves travel at a speed v = (Lg/2π) 1/2 , where L is the wavelength and g is the local acceleration due to gravity. At sea level, where most ships travel, this works out to v = 1.34 L 1/2 when L is measured in feet and v is given in knots. [2] (A knot is one nautical mile, about 6080 feet, per hour.) Because a wake arises at the bow and the stern of a ship, its wavelength can be approximated as the length of the ship at the waterline. When the ship is travelling more slowly than its wake, water is simply displaced and the associated energy travels away from the sides without further interaction. However as the ship approaches this critical speed, it will build up a barrier of water in front of it and a trough behind it because the water simply cannot get away fast enough. To go any faster the ship will have to push uphill, requiring considerably more energy. This will make the barrier of water yet higher, making the next increment in speed even more costly. Because the critical speed v depends only on the length of the hull it is referred to as the ship's "hull speed." The value 1.34 knots/ft 1/2 in the equation given above is often called the speed to length ratio for a hull despite the fact that it is not strictly a speed divided by a length.

Obviously this analysis is oversimplified. Naval architects and professional shipwrights perform much more sophisticated analyses of their craft to account for interaction with ocean waves and wind, the precise shape of the hull, the modeled shape of the wake, and other factors. However the concept of a speed to length ratio is so useful and fast that many professionals work out a value for a specific hull shape and then refer to it as they scale the model up or down in size. Values range from 1.18 (in nautical units) for barges to 1.42 for very long, sleek vessels. Most amateurs use 1.34 as a good approximation for most common hull shapes.

Hull speed is sometimes treated as the highest speed a ship can attain. This is not strictly the case. It simply measures a critical speed at which the ship catches up to its own wake. Typically the energy required to speed up a displacement hull then becomes exponential in speed rather than quadratic. If the engine was already working hard to reach this speed, chances are it will not get much faster. However several options exist to beat the rising mound of water and press on to greater speed. The most common, particularly for smaller craft, is to climb up over the barrier. If the hull can be shaped in such a way as to generate lift, the boat is no longer displacing water equal to its weight and therefore experiences less displacement-related drag. This process is referred to as hydroplaning, or simply planing. Motorboats on plane have their noses raised high out of the water as they climb their own bow wake. Specialized racing boats almost seem to leap from their own wakes as they skitter across the surface of the water. Planing is useful mostly for smaller boats which almost always want to travel faster than their sluggish hull speeds and often have plenty of power to spare when they get there. Somewhat larger vessels can gain some of the benefits of planing without the inherent loss of stability by travelling in a semi-displacement mode. By receiving some lift, but not enough to balance their weight, these craft significantly reduce the hull speed barrier without removing it entirely.

Another tactic for breaking the hull speed barrier is to simply cut through one's own bow wake. [2] This method is popular with modern navies. Fast-attack warships cannot afford the instability of planing or even semi-displacement travel, but they would hardly live up to their name if they could not overtake larger vessels with greater hull speeds. These ships are given specially designed wave-piercing prows and gigantic engines. They do as much as they can to reduce wake-drag and spend most of their time patrolling well below their hull speed. However when the need arises, these ships solve the hull speed problem by throwing more power at it. As might be expected, this strategy does not result in substantial speed increases, often only allowing a two to three hundred foot destroyer to actually reach its hull speed. [3] In this limited sense, hull speed does seem to place an effective maximum on the speed of a single displacement hull.

Although almost all fighting ships today are equipped with wave-piercing bows, true fast attack is increasingly accomplished by submarines. Subs ignore the wake problem by going under it. This highlights an important aspect of wave-induced drag. It is not just the displacement of water that limits the speed of a ship so sharply. By getting away from the complex propagation of wave energy at the air-water interface, submarines have no hull speed despite the fact that they displace more water submerged than when surfaced. Because the enhanced speed of a submarine is one of its key strategic advantages, it is difficult to clearly demonstrate. All of the submarine classes identified by the US Navy [4] are listed as having a top speed of "25+ knots submerged." The smallest of these, the Cold War era Sturgeon class, has a length of 292 feet, which would give it a hull speed of 22.9 knots. The modern 350-foot Seawolf has a hull speed of 25.1 knots, but we can be certain that it, as well as the Sturgeon, are capable of far greater speeds than 25 knots when submerged.

Displacement is not the only drag force on a body moving through water. Surface tension, the tendency of water to stick to any object immersed in it, creates an effect called 'skin drag.' Long hulls which present a sufficiently small cross-section to oncoming water have their speeds dominated by skin drag. This category includes rowing shells and racing kayaks [5] as well as multi-hulled vessels such as catamarans. The wavelengths of the wakes of these vessels are not simply the length of the hull and they are often free to travel much faster as a result. Super-narrow mono-hulls show up almost exclusively in human-powered races, but multi-hulls can take more varied forms. The US Navy is experimenting with catamaran hulls as a more flexible alternative to submarines for fast response in shallow waters. The latest venture, named Swift, is 321 feet long, giving it a hull speed of 24 knots, but has a top speed twice that fast. Over the years multi-hulled designs have been used for high speed ferries, exceptionally stable fishing boats and, of course, racing.

The concept of hull speed was developed as a practical rule-of-thumb by mariners in the days of wind and steam to describe a phenomenon that arises from a basic application of the physics of waves and, for them, placed a strict limit on the speeds they could attain. But a ship's hull speed is not some unattainable velocity like the speed of light, which cannot be accessed by any imaginable application of power. Instead it is a practical limit for engineers, a place in the physics of surface vessels where the nature of the forces involved changes dramatically. Certainly fantastic power can be expended to little avail near the hull speed of a traditional hull, but creative engineers have found ways around, over or under the walls of water that bar their way.

© 2007 Benjamin Shank. The author grants permission to copy, distribute and display this work in unaltered form, with attribution to the author, for noncommercial purposes only. All other rights, including commercial rights, are reserved to the author.

[1] H. Y. H. Yeh, "Series 64 Resistance Experiment on High-Speed Displacement Forms," Marine Technology 2 , 248 1965.

[2] Inc. U.S. Coast Guard Auxiliary Association, Sailing Skills & Seamanship (U.S. Coast Guard Auxilary Assn., 1978).

[3] http://www.milnet.com/pentagon/usnship.htm

[4] http://www.milnet.com/pentagon/subclass.htm

[5] J. Winters, "Speaking Good Boat, Part II (Kayak Hull Speed and Beyond)," http://www.qcckayaks.com/resources/speakboat2.asp .

Catamaran Hull Speed Calculator For Beginners (Table and Free Spreadsheet)

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Speed is important, it can get you out of harm’s way, and it makes sailing much more fun, but figuring out how fast a catamaran will be able to sail can be tricky. One important aspect is to understand maximum hull speed.

In this article, I have calculated different hull speeds for different lengths of boats; this includes both monohulls and catamarans but focuses on the latter. Here is the catamaran maximum hull speed table:

Table of Contents

Catamaran Max Hull Speed Calculator Table

Table explanation.

• Length on the waterline (L.W.L.): Length of the boat when measured on the waterline, not to be confused with length overall (L.O.A.), which is the boat’s total length (above the waterline) including bowsprit, etc.
• Displacement max hull speed: The max speed of a boat whose L.W.L doesn’t change when underway and where the vessel’s bow wave is the limiting speed factor.
• Semi/Light Displacement or Semi planing hulls speed: A boat where the bow waves speed limiting factors can be partially overcome and therefore exceed the displacement hull speed. These hulls usually overcome hull speed by 10-30% .

How to use the Catamaran Hulls Speed Table

• Choose your length on waterline in the left-most column, either in feet or meter.
• Continue reading to your right and stop either at “Displacement hulls speed” or continue to “10,20, or 30%”, depending on your estimated hull efficiency. This will be your calculated maximum hull speed for a semi-displacement catamaran.

The Formula

First of all, we need to know the maximum hull speed for a displacement hull, and from that number, we will be able to calculate how much faster the semi-planing (or semi-displacement) hull will be. This is the formula for Maximum Hull Speed on a displacement boat:

Now we need to add the increased efficiency (loss of drag) of a semi-displacement hull, usually, this is somewhere between a 10-30% increase.

Note: “1.3” is the increase in efficiency, if you believe you are on the lower end of the scale this would be 1.2 or 1.1.

How to Exceed Hull Speed

This calculator offers a theoretical perspective, but many other factors such as sail plan, weight, and sailor skill, of course, have a profound impact on speed. As we have seen, a semi-displacement hull can exceed maximum hull speed, but we can also see that it isn’t by much. The next step is to reduce drag even further by utilizing a planning hull.

Catamaran Hull Speed Spreadsheet

If you want more info, calculate other lengths, or see the speeds in Km/h or Mph then I suggest you check out this free spreadsheet.

Catamaran Freedom Hull Speed Calculator

Note: If you want your own copy just click, File->make a copy.

Common Questions About Catamaran Hull Design

Below I will answer some of the questions I receive concerning catamaran hull design. The list will be updated as relevant questions come in.

Is a Catamaran a Planing hull?

As we have discussed above, a catamaran can definitely have a semi-planing hull, but can it be designed in a fully planing configuration as well?

Catamarans can be configured as planing hulls, although most sailing catamarans are set up as either semi-planing or hydrofoil. Due to the high speeds needed to get a boat to planing speed, this is only possible on racing sailboats or motor-powered catamarans such as high-speed ferries.

Owner of CatamaranFreedom.com. A minimalist that has lived in a caravan in Sweden, 35ft Monohull in the Bahamas, and right now in his self-built Van. He just started the next adventure, to circumnavigate the world on a Catamaran!

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How Heel Affects Speed and Handling

• By Steve Killing And Doug Hunter
• Updated: September 27, 2017

The underwater hull shape of your boat when it heels affects how much sailing length is put to work, how easy it is to steer, and how much horsepower it can carry aloft as the breeze increases. Consequently, some hull shapes must be sailed differently to get the best performance. To explain this concept, let’s compare three of my designs that represent common, but very different, hull shapes: a beamy IOR 40 called Chariot , the long and narrow Canadian 12-Meter True North I with pronounced overhangs, and a 50-foot deep-draft sportboat design, the Daniells 50.

Effective waterline length

A general design rule is that the longer the waterline, the higher the hull’s speed potential. Perhaps the most important change when a boat is heeled is the length of the hull in the water, which is also known as effective waterline length or sailing length. Before the advent of rating rules based on computer performance prediction, designers working with point-measurement rules naturally strove to create hulls with more effective waterline length when heeled than what was measured for ratings purposes when the boat was upright.

The 12-Meter typified this design strategy. The simplest response to outwitting the waterline measurement process was a boat with generous overhangs at the bow and stern, which would stretch the sailing length when the boat heeled. The International Rule, created in 1906, sought to control excessive overhang by measuring a 12-Meter’s sailing length 7 inches above the load waterline (LWL). But there was just too much speed potential in overhangs for designers not to stretch the bow and stern above this point. When these long, narrow, and heavy designs heel to 25 degrees as shown, the deepest part of the hull remains along the centerline near amidships, but locations closer to the bow and stern shift their immersed volume to one side. When this happens, a significant gain in sailing length is achieved, especially at the stern, and a heeled modern 12 develops a particularly noticeable shift in underwater shape outboard of, and behind, the rudder.

It’s a profoundly different shape than that of the sportboat, which was designed without any point-measurement rule to satisfy. This hull is typical of modern sportboat designs, which are either handicapped through computer performance prediction such as the IMS or race in one-design fleets. A clean underwater shape essentially shifts to leeward as the boat heels. Some gain in waterline length results, but not in the dramatic way of a Meter-class boat. It’s not as important, the way it is with designs with pronounced overhangs, to get the sportboat to lay over just to increase hull speed.

Which brings us to Chariot and the issue of how heeling affects a boat’s performance beyond waterline length. Like the 12-Meter, the IOR design is based on a point measurement system. The International Offshore Rule, which was created in 1972, dominated offshore racing design in the 1970s and 1980s. While IOR competition has been superseded by the IMS and one-design offshore classes, the rule lives on in the hulls of many club-based racing keelboats built in an era when racer/cruiser designs routinely took their cue from SORC and Admiral’s Cup winners.

While Chariot isn’t the most extreme product of the IOR, it does show many typical IOR features: a somewhat triangular transom, deep forefoot, large skeg, and a fair amount of beam–emphasized by a designer because the rule assumed that fatter is slower than skinnier. As an IOR design heels, there’s a tendency to pick up sailing length. But because there’s so much volume gathered amidships, if it heels too far, it can begin to rise up, actually shortening the sailing length. As a result, this hull is far less tolerant of heel angle than less beamy designs.

Asymmetry, drag, and control problems

The narrower hull forms of the 12-Meter and the Daniells 50 also encounter far less form drag. This is the kind of parasitic drag an object experiences as it’s being pushed through a fluid, and the narrower a hull is relative to its length, the lower the form drag will be. Because of this, meter-boat hulls can drive comfortably to windward at high degrees of heel with minimum form drag, stretching their sailing length in the process. It’s an advantage enjoyed by other long, narrow hull forms such as Dragons, IODs, and Etchells.

This brings us to another potential consequence of heel. Look at the shapes of the waterline planes in the heeled drawings. (It’s important to consider all the waterline planes, and not just the lightest colored one describing the sailing length.) With Chariot , they’re asymmetric, with long curves on the leeward side and near-straight lines to windward. The heeled 12-Meter displays a less extreme amount of asymmetry, while there’s hardly any with the Daniells 50. Asymmetry encourages the boat to turn to windward, which can lead to control problems. Those problems are compounded by the way a boat settles fore and aft as it rolls to one side.

In most cases, heeled hulls have more volume (read buoyancy) at the stern than the bow, which means that, to different degrees, they want to pitch bow down as they lean over. Even a boat as long and heavy as a 12-Meter benefits from moving crew weight aft as it heels, to counteract the tendency. The effect is most pronounced in Chariot , where it also has the most serious consequences because of things going on at either end of the waterline. IOR boats typically have a deep forefoot with a sharp bow knuckle, and if the bow gets a bite on the passing water as the stern lifts when reaching, a broach is in the making. The control problem is exacerbated by the rudder’s position. As with the 12-Meter, the rudder post is positioned at the end of the design waterline, and as the hull heels, more so in the case of the IOR design, the top of the rudder is in danger of becoming airborne if the stern is allowed to rise. It’s now vulnerable to ventilation down its low-pressure side, reducing efficiency and encouraging a total stall, just when the bow knuckle is digging in, and the heeled hull’s asymmetry is encouraging a sharp turn to windward.

The control problem is less of an issue with the 12-Meter, which lacks the sharp bow knuckle and generally has enough displacement to keep the rudder buried. And it’s least likely to crop up with a modern sportboat, whose shape is noticeably less beamy than that of Chariot , with a wider transom, flatter sections aft, no skeg, and a shallow forefoot. The rudder is positioned well forward of the design waterline’s aft end, and even when the hull is heeled 25 degrees, it’s at minimum risk of inducing ventilation. All that beam aft creates more waterline length when heeled, but at the same time the underwater shape remains symmetrical, which helps maintain a comfortable amount of weather helm. As with the other designs, moving crew weight aft when heeled is a good idea.

Target speed and heel angle

In 20 knots of true wind, our three designs have distinctive optimum performance parameters. Chariot has a target speed of 6.7 knots, but as the beamiest design, to get there the heel angle must be limited to 26 degrees, and sails must be reefed to 80 percent and flattened. The Daniells 50 will make 7.9 knots with the same sail management strategy, but its hull form permits a heel angle of 29 degrees. The 12-Meter True North I , the narrowest and heaviest of the lot, requires no reefing, only flattening of the sails, and can carry 30 degrees of heel as 8.3 knots are achieved.

How much heel your boat can actually tolerate can be investigated by some on-water pacing against an identical or similar design. If you don’t have one already, install a heel gauge and pay attention to it as you draw your observations. An excellent resource to gather hard numbers on how your boat should be handled is US SAILING, which offers valuable performance packages on about 1,500 designs.

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Hull Smoothness – What Matters for Speed?

How much effort should you spend on hull smoothness? We decided to investigate this after seeing a variety of approaches. Many (maybe most) fast sailors put time into polishing the hull, but others don’t bother.

Our primary source for this article is A Smooth Bottom is a Fast Bottom from the GP14 class website. This article is an easy read and the best summary we found. Author Paul Grimes was a Collegiate All-American sailor at Brown University and has experience in hydrodynamics and marine yacht services. We also referred to Sailing Theory and Practice , by C.A. Marchaj

Hull Smoothness and Speed – Data

Hull drag results from several factors. These factors have different names, depending on which book you read.

• Skin friction drag – the friction from the hull sliding through the water. A smooth hull reduces skin friction.
• Form drag – related to the streamlining of the hull and foils.
• Wave-making resistance – related to the slowing effect of the waves produced at the bow and stern by the boat’s movement.
• Induced resistance – due to leeway as the boat slides to leeward while sailing upwind.

Skin friction causes a substantial portion of total drag. Marchaj’s data from towing tests shows that skin friction for an International Canoe is 80% of total drag at 3 knots. Skin friction increases with boat speed, but other the forms of hull drag increase more, so skin friction is only 40% of total drag at 6 knots.

What is the speed advantage of a smooth hull? We could not find definitive speed data. Marchaj’s data only compares a boat with a clean bottom to a boat with a foul bottom. With the same driving force, the clean-bottom boat travels 0.27 knots faster than the foul-bottom boat when moving at 4 knots. The difference shrinks to 0.14 knots when the boats are moving at 6 knots. These are significant differences.

Since we couldn’t definitive data beyond foul and clean hulls, we’ll have to review the concepts of laminar and turbulent flow to get more answers about hull smoothness.

Laminar and Turbulent Flow

The no-slip condition and the boundary layer.

It may be counterintuitive, but the water molecules immediately next to the moving hull are pressed against the hull and adhere to it – they don’t slip. This is true regardless of the hull’s smoothness. These molecules slow down the water molecules “above” them, and so on until the water further from the hull is no longer affected. The affected layer is called the boundary layer. Skin friction drag is determined by the type of flow within the boundary layer.

The type of flow in the boundary layer determines the amount of skin drag.

• In laminar flow, the water molecules in the boundary layer all flow in the same direction – parallel to the hull surface.
• In turbulent flow, the water molecules move more chaotically.

Benefits and Limitations of Laminar Flow

Laminar flow reduces skin friction by as much as 80%, compared to turbulent flow. However laminar flow is fragile. It turns into turbulent flow under several conditions.

• Surface is not fair (bumps or dents).
• Surface is not extremely smooth (highly polished), especially in the forward part of the hull.
• Water is flowing fast. At speeds greater than 4 knots or so, boats can’t sustain laminar flow over the hull length, regardless of smoothness.
• Distance traveled along the surface is long. As the distance traveled becomes long, it becomes impossible to sustain laminar flow, no matter how smooth the hull.

Turbulent Flow

Although turbulent flow causes more drag, there’s still a very thin laminar layer in turbulent flow. The skin drag is minimized if the surface roughness is less than this thin laminar layer.

Conclusions about Hull Smoothness

The theory leads to the following conclusions about how much you should do about hull smoothness.

Fair the Hull

To be competitive your hull should be fair. Small undulations over a distance are not significant. Dents and bumps, especially those with sharp edges are more significant, as they will trip the flow from laminar to turbulent.

Polish to 400 Grit for Acceptable Results

Even with a highly polished hull, boats moving faster than several knots will transition to turbulent flow within the first several feet of hull. In turbulent flow, more roughness is acceptable. Grimes says that sanding to 400 grit is adequate if the flow is turbulent.

Polish to 1200-1500 Grit Equivalent for Best Results

The best chance for sustaining laminar flow is with a very smooth (e.g., 1200-1500 grit or greater) hull traveling at low speeds (light air). Pay special attention to the forward part of the hull, since roughness there will trip the flow to turbulent sooner.

For light air and overall peace of mind, polishing to 1200-1500 grit is not outlandish, but only if you have time to do the more important stuff – like practicing.

Other Hull Drag Factors

Waxing and water beading.

Beading of water on the hull has no effect on skin friction drag. The no-slip condition still holds true. If you put wax on just to get beading, you may make the surface rougher. We’ll see more about this in a future article.

Foil Smoothness

The foils (boards and rudder), being narrower, can sustain laminar flow over their entire surface. Foil smoothness is thus more important. We’ll cover this in a separate article.

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My Cruiser Life Magazine

Basics of Sailboat Hull Design – EXPLAINED For Owners

There are a lot of different sailboats in the world. In fact, they’ve been making sailboats for thousands of years. And over that time, mankind and naval architects (okay, mostly the naval architects!) have learned a thing or two.

If you’re wondering what makes one sailboat different from another, consider this article a primer. It certainly doesn’t contain everything you’d need to know to build a sailboat, but it gives the novice boater some ideas of what goes on behind the curtain. It will also provide some tips to help you compare different boats on the water, and hopefully, it will guide you towards the sort of boat you could call home one day.

Table of Contents

Displacement hulls, semi displacement hulls, planing hulls, history of sailboat hull design, greater waterline length, distinctive hull shape and fin keel designs, ratios in hull design, the hull truth and nothing but the truth, sail boat hull design faqs.

Basics of Hull Design

When you think about a sailboat hull and how it is built, you might start thinking about the shape of a keel. This has certainly spurred a lot of different designs over the years, but the hull of a sailboat today is designed almost independently of the keel. 

In fact, if you look at a particular make and model of sailboat, you’ll notice that the makers often offer it with a variety of keel options. For example, this new Jeanneau Sun Odyssey comes with either a full fin bulb keel, shallow draft bulb fin, or very shallow draft swing keel. Where older long keel designs had the keel included in the hull mold, today’s bolt-on fin keel designs allow the manufacturers more leeway in customizing a yacht to your specifications.

What you’re left with is a hull, and boat hulls take three basic forms.

• Displacement hull
• Semi-displacement hulls
• Planing hulls

Most times, the hull of a sailboat will be a displacement hull. To float, a boat must displace a volume of water equal in weight to that of the yacht. This is Archimedes Principle , and it’s how displacement hulled boats get their name.

The displacement hull sailboat has dominated the Maritimes for thousands of years. It has only been in the last century that other designs have caught on, thanks to advances in engine technologies. In short, sailboats and sail-powered ships are nearly always displacement cruisers because they lack the power to do anything else.

A displacement hull rides low in the water and continuously displaces its weight in water. That means that all of that water must be pushed out of the vessel’s way, and this creates some operating limitations. As it pushes the water, water is built up ahead of the boat in a bow wave. This wave creates a trough along the side of the boat, and the wave goes up again at the stern. The distance between the two waves is a limiting factor because the wave trough between them creates a suction. 

This suction pulls the boat down and creates drag as the vessel moves through the water. So in effect, no matter how much power is applied to a displacement hulled vessel, it cannot go faster than a certain speed. That speed is referred to as the hull speed, and it’s a factor of a boat’s length and width. 

For an average 38 foot sailboat, the hull speed is around 8.3 knots. This is why shipping companies competed to have the fastest ship for many years by building larger and larger ships.

While they might sound old-school and boring, displacement hulls are very efficient because they require very little power—and therefore very little fuel—to get them up to hull speed. This is one reason enormous container ships operate so efficiently. 

Of course, living in the 21st century, you undoubtedly have seen boats go faster than their hull speed. Going faster is simply a matter of defeating the bow wave in one way or another.

One way is to build the boat so that it can step up onto and ride the bow wave like a surfer. This is basically what a semi-displacement hull does. With enough power, this type of boat can surf its bow wave, break the suction it creates and beat its displacement hull speed.

With even more power, a boat can leave its bow wave in the dust and zoom past it. This requires the boat’s bottom to channel water away and sit on the surface. Once it is out of the water, any speed is achievable with enough power. 

But it takes enormous amounts of power to get a boat on plane, so planing hulls are hardly efficient. But they are fast. Speedboats are planing hulls, so if you require speed, go ahead and research the cost of a speedboat . 

The most stable and forgiving planing hull designs have a deep v hull. A very shallow draft, flat bottomed boat can plane too, but it provides an unforgiving and rough ride in any sort of chop.

If you compare the shapes of the sailboats of today with the cruising boat designs of the 1960s and 70s, you’ll notice that quite a lot has changed in the last 50-plus years. Of course, the old designs are still popular among sailors, but it’s not easy to find a boat like that being built today.

Today’s boats are sleeker. They have wide transoms and flat bottoms. They’re more likely to support fin keels and spade rudders. Rigs have also changed, with the fractional sloop being the preferred setup for most modern production boats.

Why have boats changed so much? And why did boats look so different back then?

One reason was the racing standards of the day. Boats in the 1960s were built to the IOR (International Offshore Rule). Since many owners raced their boats, the IOR handicaps standardized things to make fair play between different makes and models on the racecourse.

The IOR rule book was dense and complicated. But as manufacturers started building yachts, or as they looked at the competition and tried to do better, they all took a basic form. The IOR rule wasn’t the only one around . There were also the Universal Rule, International Rule, Yacht Racing Association Rul, Bermuda Rule, and a slew of others. 

Part of this similarity was the rule, and part of it was simply the collective knowledge and tradition of yacht building. But at that time, there was much less distance between the yachts you could buy from the manufacturers and those setting off on long-distance races.

Today, those wishing to compete in serious racing a building boat’s purpose-built for the task. As a result, one-design racing is now more popular. And similarly, pleasure boats designed for leisurely coastal and offshore hops are likewise built for the task at hand. No longer are the lines blurred between the two, and no longer are one set of sailors “making do” with the requirements set by the other set. 

Modern Features of Sailboat Hull Design

So, what exactly sets today’s cruising and liveaboard boats apart from those built-in decades past? 

Today’s designs usually feature plumb bows and the maximum beam carried to the aft end. The broad transom allows for a walk-through swim platform and sometimes even storage for the dinghy in a “garage.”

The other significant advantage of this layout is that it maximizes waterline length, which makes a faster boat. Unfortunately, while the boats of yesteryear might have had lovely graceful overhangs, their waterline lengths are generally no match for newer boats. 

The wide beam carried aft also provides an enormous amount of living space. The surface area of modern cockpits is nothing short of astounding when it comes to living and entertaining.

If you look at the hull lines or can catch a glimpse of these boats out of the water, you’ll notice their underwater profiles are radically different too. It’s hard to find a full keel design boat today. Instead, fin keels dominate, along with high aspect ratio spade rudders. 

The flat bottom boats of today mean a more stable boat that rides flatter. These boats can really move without heeling over like past designs. Additionally, their designs make it possible in some cases for these boats to surf their bow waves, meaning that with enough power, they can easily achieve and sometimes exceed—at least for short bursts—their hull speeds. Many of these features have been found on race boats for decades.

There are downsides to these designs, of course. The flat bottom boats often tend to pound when sailing upwind , but most sailors like the extra speed when heading downwind.

How Do You Make a Stable Hull

Ultimately, the job of a sailboat hull is to keep the boat afloat and create stability. These are the fundamentals of a seaworthy vessel. 

There are two types of stability that a design addresses . The first is the initial stability, which is how resistant to heeling the design is. For example, compare a classic, narrow-beamed monohull and a wide catamaran for a moment. The monohull has very little initial stability because it heels over in even light winds. That doesn’t mean it tips over, but it is relatively easy to make heel. 

A catamaran, on the other hand, has very high initial stability. It resists the heel and remains level. Designers call this type of stability form stability.

There is also secondary stability, or ultimate stability. This is how resistant the boat is to a total capsize. Monohull sailboats have an immense amount of ballast low in their keels, which means they have very high ultimate stability. A narrow monohull has low form stability but very high ultimate stability. A sailor would likely describe this boat as “tender,” but they would never doubt its ability to right itself after a knock-down or capsize.

On the other hand, the catamaran has extremely high form stability, but once the boat heels, it has little ultimate stability. In other words, beyond a certain point, there is nothing to prevent it from capsizing. 

Both catamarans and modern monohulls’ hull shapes use their beams to reduce the amount of ballast and weight . A lighter boat can sail fast, but to make it more stable, naval architects increase the beam to increase the form stability.

If you’d like to know more about how stable a hull is, you’ll want to learn about the Gz Curve , which is the mathematical calculation you can make based on a hull’s form and ultimate stabilities. 

How does a lowly sailor make heads or tails out of this? You don’t have to be a naval architect when comparing different designs to understand the basics. Two ratios can help you predict how stable a design will be .

The first is the displacement to length ratio . The formula to calculate it is D / (0.01L)^3 , where D is displacement in tons and L is waterline length in feet. But most sailboat specifications, like those found on  sailboatdata.com , list the D/L Ratio.

This ratio helps understand how heavy a boat is for its length. Heavier boats must move more water to make way, so a heavy boat is more likely to be slower. But, for the ocean-going cruiser, a heavy boat means a stable boat that requires much force to jostle or toss about. A light displacement boat might pound in a seaway, and a heavy one is likely to provide a softer ride.

The second ratio of interest is the sail area to displacement ratio. To calculate, take SA / (D)^0.67 , where SA is the sail area in square feet and D is displacement in cubic feet. Again, many online sites provide the ratio calculated for specific makes and models.

This ratio tells you how much power a boat has. A lower ratio means that the boat doesn’t have much power to move its weight, while a bigger number means it has more “get up and go.” Of course, if you really want to sail fast, you’d want the boat to have a low displacement/length and a high sail area/displacement. 

Multihull Sailboat Hulls

Multihull sailboats are more popular than ever before. While many people quote catamaran speed as their primary interest, the fact is that multihulls have a lot to offer cruising and traveling boaters. These vessels are not limited to coastal cruising, as was once believed. Most sizable cats and trimarans are ocean certified.

Both catamarans and trimaran hull designs allow for fast sailing. Their wide beam allows them to sail flat while having extreme form stability. 

Catamarans have two hulls connected by a large bridge deck. The best part for cruisers is that their big surface area is full of living space. The bridge deck usually features large, open cockpits with connecting salons. Wrap around windows let in tons of light and fresh air.

Trimarans are basically monohulls with an outrigger hull on each side. Their designs are generally less spacious than catamarans, but they sail even faster. In addition, the outer hulls eliminate the need for heavy ballast, significantly reducing the wetted area of the hulls. 

Boaters and cruising sailors don’t need to be experts in yacht design, but having a rough understanding of the basics can help you pick the right boat. Boat design is a series of compromises, and knowing the ones that designers and builders take will help you understand what the boat is for and how it should be used. 

What is the most efficient boat hull design?

The most efficient hull design is the displacement hull. This type of boat sits low in the water and pushes the water out of its way. It is limited to its designed hull speed, a factor of its length. But cruising at hull speed or less requires very little energy and can be done very efficiently. 

By way of example, most sailboats have very small engines. A typical 40-foot sailboat has a 50 horsepower motor that burns around one gallon of diesel every hour. In contrast, a 40-foot planing speedboat may have 1,000 horsepower (or more). Its multiple motors would likely be consuming more than 100 gallons per hour (or more). Using these rough numbers, the sailboat achieves about 8 miles per gallon, while the speedboat gets around 2 mpg.

What are sail boat hulls made of?

Nearly all modern sailboats are made of fiberglass. 

Traditionally, boats were made of wood, and many traditional vessels still are today. There are also metal boats made of steel or aluminum, but these designs are less common. Metal boats are more common in expedition yachts or those used in high-latitude sailing.

Matt has been boating around Florida for over 25 years in everything from small powerboats to large cruising catamarans. He currently lives aboard a 38-foot Cabo Rico sailboat with his wife Lucy and adventure dog Chelsea. Together, they cruise between winters in The Bahamas and summers in the Chesapeake Bay.

Average Speed of a Sailboat (Plus Top Speed)

Last Updated by

Daniel Wade

June 15, 2022

Going fast in a sailboat can be lots of fun. But what is the average of a sailboat? Well, let's find out.

The delight and gratification that comes from speed can be a big plus for adrenaline-seeking sailors. Well, nothing can fire up the adrenaline more than having a speedy boat ride out on the water. This is essentially why having an idea of how fast a sailboat can go is of great importance. When it comes to looking at the speed of a sailboat, it can be crucial to consider the types of activities that you'll be using your sailboat for. In fact, your sailboat should only be considered ideal if it meets the level of expectations required of it in terms of speed and activities on the water. Even with this, the speeds of sailboats can vary based on several factors. But what is the average speed of a sailboat?

The top speed of a sailboat will vary based on its size and purpose. For example, high-end racing sailboats are purposely designed to reach maximum speeds while larger and bulkier sailboats may be slower due to drag and friction. That being said, the average speed of racing sailboats is 15 knots (17 mph). On the other hand, the average speed of cruising sailboats is 4-6 knots (4.5-7 mph) and can attain a top speed of 7 knots (8 mph). In essence, cruise speeds of over 8 knots are quite normal.

Let's get into the details.

Table of contents

Measuring Sailboat Speed

The nautical measurement of speed is the knot. According to the World Sailing Speed Council, one knot is equal to about 1.15 mph. The knot measurement is dependent on the circumference of the Earth. So if your sailboat is cruising at an average speed of 1 nautical mile per hour, it means that it's cruising at a speed of 1 knot.

Modern sailboats have GPS tracking devices that can be used to measure the distance covered, as well as the speed at which the sailboat is sailing.

Factors that Determine the Speed of a Sailboat

Different types of sailboats can attain different speeds. There are several factors that can determine the speed of a sailboat. Let's take a look.

The Length and Size of a Sailboat

While the speed of a sailboat will depend on several factors such as currents, wind conditions, and many other factors as we'll discuss later, the most important thing that can influence the speed of a sailboat is its size and length. You may be asking yourself; what's the connection between the length of a boat and its speed?

Well, the ability of a sailboat to go fast depends on the harmonizing act between its length and the power that drives it. When a sailboat moves through the water, it creates a pattern of waves. These waves include one along the side of the sailboat, which produces a ridge of water at the bow and a trough at the stern.

If the length of the wave is almost equal to the length of the boat, it creates a huge ridge that shoves the sailboat back into its trough, thereby slamming it up against an almost dense wall of water resistance. This then gives the sailboat sufficient speed to lift its bow out of the water and the ability to skim above the bow waves while allowing it to overcome the resistance that the water or the waves create.

A sailboat, of course, needs a lot of power to get over the hump in the resistance curve. So a longer boat will have a higher speed than a shorter boat. This is because a longer sailboat will create longer waves across its hull and move faster. On the other hand, short sailboats tend to generate shorter waves, thereby will have reduced speeds. In essence, it's almost impossible for a sailboat to travel faster than the speed of a wave if the wave is longer than the boat.

In most cases, boat designers create extreme lengths to get boats over the mound of the wave resistance. While a lightweight boat can easily achieve this, it can leave you shorthanded in heavy winds as it can be easily pushed by the winds. Again, it may not have the stability needed to carry enough sails to get the appropriate power to sail on the water. So if the boat is light, it should at least have a double hull to at least compensate for its instability.

The Shape of the Hull

This may be hard to believe but some hulls are more efficient than others when it comes to creating the wave resistance that is needed to move the boat. Generally, hulls should be very slim and carefully shaped. Keep in mind that a sailboat that has a hull that's shaped like a fat tub will not be as fast as a sailboat with a very slim hull even if they're of the same length.

A proper indication that the hull has the ability to be faster depends on its aft or buttock lines. If a hull has a straight line from the lowest point of the hull to the transom and the transom is a little bit wide, the boat will not only be stable but will be much faster. On the contrary, a hull that curves a lot but has a narrow stern may not be that fast. In essence, hulls play an integral role in slicing through the water and do not push water aside and down.

Comparing the Speeds of Catamarans and Monohulls

Are catamaran or trimaran hulls more superior to Monohulls in terms of speed? Well, cruising on a sailboat with a cat hull will be much faster than cruising on a sailboat with a monohull by 25%-30% if the two sailboats are of the same length. A catamaran hull will not only achieve speeds of a racing monohull but will be more comfortable to sail on.

A tri-hull is even much better in the sense that they're generally designed towards the performance end of the spectrum. They will, therefore, double the speed of a racing monohull.

The only downside of a cat and trimaran hull is that they're more sensitive to loading and their performances will significantly suffer if they're loaded. On the other hand, a monohull can perfectly handle loading and this is a huge advantage is you're planning to sail with a crew. To this end, you should consider keeping your cat or tri boat as light as possible if you want to maximize speed. We all know that keeping your sailboat light is as difficult as they come but it's of importance if speed is your main goal.

Monohull (6-8 knots)

Most average sailboats are designed with monohulls. They're generally displacement hulls designed to split through the underwater. This not only stabilizes the boat but slices through the water smoothly. If you want to make a monohull sailboat much faster, you can consider raising the entire hull above the water.

Catamarans and Trimarans (9-10 knots)

Unlike monohulls, cats and trimarans are located on top of the water. This means that they'll be displacing less water, thereby making them a lot faster. The only downside is that this design will make the boat less stable, which can be a cause for concern given that safety should always come first while on the water. This is essentially why catamarans and trimarans have two and three hulls respectively. This will, however, make the boat extremely buoyant.

Waves play a critical role not just in the speed of your boat but also in the safety of your boat. We all know that waves are very unpredictable. They can be calm and gentle but can suddenly become wild, confusing, irregular, and angry.

Generally described as freaks or rogues, waves can be very dangerous. They can bully your boat and attempt to roll it over. Waves can also make your boat faster or slower. As such, waves can either positively or negatively affect the speed of your sailboat. Given that calm waves cannot be appropriate in achieving the maximum speed of your boat, the right wave condition that should enable your sailboat to move faster should overlap and interfere in the right way.

The wind is the only thing that propels sailboats. The wind will fill up the sails, which is then used to move the boat. Both true winds and apparent winds can be integral in moving the boat forward. True wind is essentially the type of wind you feel when you stand still and it's what pushes a boat. Needless to say, strong winds may move a sailboat faster than calm winds but this may depend on the wind direction.

How to Improve the Speed of Your Sailboat

Having looked at the average speed of a sailboat, as well as factors that may affect its speed, it's important to highlight how to improve the speed of your sailboat.

It's important to make sure that your sailboat is properly designed to attain maximum speed. The sailboat should also be properly maintained and serviced to work at maximum speed. Make sure that the hull and foils are clean and in perfect shapes. Here's what to do.

• ‍ Make sure that the foils do not have seaweeds or plastic bags
• Ensure that the hull is in tip-top shape and can hold tension
• Make sure that the sails are in the right conditions
• Make sure that the masts have the right stiffness

You may have a lot of difficulties reaching your targeted speed if the weight of the crew exceeds the appropriate capacity of your sailboat. This is because there will be some sort of drag and tension and this may significantly hinder the speed at which the boat travels. In essence, a lighter boat may be a lot faster than a heavier boat. This is what you should do.

• ‍ Make sure that the weight is appropriate
• Ensure that the boats overall weight is moving aft and out appropriately
• Make sure that the maximum weight is not exceeded

The settings of your sailboat can either negatively or positively affect its speed. For instance, you should make sure that the mast rakes, mast step position, shroud tensions. Jib car position, vang tension, and keel position, as well as any other part of the sailboat, are perfectly set to make the boat faster.

You should compare various settings and figure out which type of settings gives you maximum speed. Here are some of the things to do.

• ‍ Ensure that jib cars are in the right position
• Make sure that your mainsails are in the right position
• The vang tension should be efficient

The technique you use on your sailboat can make a difference when it comes to your speed. Techniques such as steering and trimming can be a huge speed factor, particularly when the conditions at sea are difficult. You should also have varying trimming techniques. Here are some important skills.

• ‍ Know how to steer perfectly
• Know how to control primary upwind
• Know the right amount of curl to have in your kite
• Make sure that you're pumping efficiently
• Know how to play the jibs and genoas

These factors can be of great importance in increasing the speed of your sailboat. You can use them efficiently next time you want to be up to speed.

Bottom Line

Sailing speed is, without a doubt, one of the most favorite discussions among sailors. Most sailors often try to figure out how to make their sailboats faster or why a given sailboat is faster than another one. In essence, the average speed of a sailboat ranges between 4 knots to 15 knots but this may depend on the size and type of the sailboat, as well as other factors. This means that the average speed of sailboats is 8 knots but there several factors such as the type of the hull, waves, and wind conditions can affect the speed of your sailboat.

It's, therefore, important to know how these factors may affect your speed and what you need to do about them. For example, your sailboat may not be as fast as you may want if it's not properly prepared or maintained.

Related Articles

I've personally had thousands of questions about sailing and sailboats over the years. As I learn and experience sailing, and the community, I share the answers that work and make sense to me, here on Life of Sailing.

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Amadeus - Crewed Sailing Yacht Charter

Amadeus €35,000.

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Anastasia Yurash (Asst. Stewardess)

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• From €35,000 / week
• Sailing Monohull + 6 crew
• Summer Port: Cruising Areas Summer: Greece, Turkey Summer Port: Marina Zea, Piraeus, Greece Winter: Greece Winter Port: Marina Zeas, Pireaus, Greece ">Marina Zea, Piraeus, Greece
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• Length: 110 ft / 33.5 meters 110 feet 33.5 meters
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Amadeus Description

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. S/Y Amadeus has just undergone this past winter (2018) a major refit such as total repaint top to bottom, new rigging (BSI Denmark), Novourania with new Evinrude 75hp outboard, Splash pool, new Bimini/Sprayhood/Awnings, new exterior fabrics and many other enhancements. In 2016 new “North Sails” were placed onboard. The yacht is maintained in excellent condition with a five-star crew year round. Her generous uncluttered teak deck offers plenty of space for sunbathing. The spacious and unique outdoor saloon has two tables seating upto 12 guests and is a perfect setting for outdoor dining and entertainment. Thanks to a special canopy and roll-up windows, the deck saloon has the added attraction that it can be fully enclosed, making it ideal for all weather conditions. Her forward area includes a splash pool and sun bathing area which can also be shaded with a removable awning. From the cockpit, a stairway leads to the light-filled spacious saloon offering ample seating, ideal for relaxing or enjoying a drink from the bar, and offers a formal dining area. This area also includes a LCD TV, entertainment center, ipod dock station, playstation, and is ideal for indoor activities. She can accommodate 10-12 guests in one full width master stateroom, two double bedded cabins each having one extra single bed and two twin bedded cabins which can be easily converted to double beds (upon request), thus, making her the only 5 double bedded sailboat in the Greek market. She also has a nice selection of toys which include water ski (adult and children), tubes, inflatable canoes, wakeboard, fishing rod and snorkeling gear.

Cruising Area of Amadeus

Accommodations, specification, water sports, scuba diving, entertainment, amadeus crew profile, chief stewardess.

CAPTAIN - Harry Fotopoulos Captain Harry is a graduate of the Merchant Marine Academy and holds a Captain Class A’ Diploma. He also holds a Canadian Commercial Pilot license class B, sailing and speedboat license. He has over 15 years of experience onboard many types of Charter Yachts. He holds Certificates in GMDSS, Fire Fighting & First Aid, Personal Safety, Life Saving, and Ship Security. He has a great knowledge of the Greek islands and will navigate guests to remarkable destinations. During his one season on board he showed great leadership skills and received positive feedback from all guests. He is calm yet very outgoing and speaks very good English. DECKHAND - Konstantinos Santas CHIEF STEWARDESS - Mirella Davint Mirella has 8+ years of experience as a stewardess onboard charter and private yachts. She has a very pleasant personality and she aims to accommodate her guests to the fullest. Comments received from previous guests are memorable. This will be Mirella’s eighth season onboard. Mirella speaks English and she is 38 years old. ENGINEER - Stelios Mandos Stelios holds an Engineer Class B’ Diploma from the Greek Merchant Marine Academy as well as a Sailor’s License. He has over 15 years of experience onboard Ocean-Going Vessels and Charter Yachts. His hobbies include spearfishing and sailing. He speaks good English. Stelios is 45 years old, married with two children. CHEF - Thanasis Kiritsis Thanasis is 39 years old and has worked as a chef for more than 20 years in numerous hotels restaurants, yachts and resorts including owning his own pastry shop / bakery for 5 years. Thanasis looks forward to welcoming his guests on board and introducing them to his culinary world. He speaks good English and Greek. He is a young chef full of energy, skills and passion towards his job. We are confident that he will serve his guests unforgettable flavors. ASSISTANT STEWARDESS - Anastasia Yurash Anastasia is 31 years old and has been in the yachting industry since 2021. Her working experience includes 7 years as a housekeeper and assistant stewardess. Anastasia speaks very good English. One of Anastasia’s strongest attributes is her appetite for work. She is also very sociable, welcoming and looks forward to having guests on board S/Y Amadeus. Her hobbies include Latin dancing, snowboard and yoga.

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Sent: Wednesday, July 31, 2019 9:02 PM Hi George, client just informed me, that he and his friends were very happy. Good atmosphere on board, excellent crew, good chef and professional service. Yacht in good condition, nice cabins. The proposed itinerary was good. Clients intend to book AMADEUS next summer again. Please send my big thank you to the Captain. Best regards,

Amadeus Sample Menu

Breakfast selections.

Freshly Squeezed Orange And/Or Grapefruit Juice

Selection Of Other Juices Such As Peach, Pineapple, Tomato.

Fresh Milk Cold And/Or Hot.

Freshly Brewed Coffee And/Or Decaf Coffee, Cappuccino, Espresso (Nespresso)

Hot Or Cold Chocolate, Selection Of Teas Served With Lemon, Honey And/Or Milk.

Breads: Plain Croissant, Chocolate Croissant, Brioche, Muffins, Traditional Greek Bread,

Rolls, Pastries, Toast White/Wheat/Rye.

Selection Of Jams And Marmalades Such As Apricot, Strawberry, Rasberry, Orange And Honey.

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Cream Cheese, Cottage Cheese, Cheese Spread.

Ham, Bacon, Salami, Smoked Turkey, Prosciutto.

Choice Of: Scrambled Eggs, Boiled Eggs, Fried Eggs, Poached Eggs, Omelets.

Eggs And Omelets Are Prepared To Order And Accompanied According To The Guest’s Requests.

Pancakes, Served With Jam, Honey, Maple Syrup, Fruits And/Or Whipped Cream.

Home-Made Carrot Cake.

Selection Of Cereals Such As Corn Flakes, Bran,Rice Crispies , Muesli.

Greek Plain Yoghurt And Fruit Yoghurt.

Fruit Salad, Half Grapefruit, Mixed Berries, Stewed Prunes, Dried Fruits And Nuts.

LUNCH SELECTIONS

Greek Salad With Marinated Anchovy And Extra Virgin Olive Oil

Fresh Talliatele With Mushrooms And Parmesan Chips

Seawolf Fiilet With Vegetables Briam, Fried Caper And Fresh Thyme Panacotta With Ginger

Salad With Radish, Dill, Parsley, Arabic Pita Bread And Soumak

Egg-Plant Napoleon With Feta Cheese And Tomato Couli

Chicken Roll, Cous-Cous With Raisins, Pine Nut And Orange Sauce Walnut Cake With Vanilla Ice-Cream

Salad With Grilled Peach And Apricot And Watermelon Vinaigrette Sauce

Risotto With Red Mullet, Pine Nuts And Sun Dried Tomato

Pork Loin Filled With Naxos Graviere

Halvas (Semolina) With Korinthous Raisins Kai Cinnamon

Salad With Fennel Root, Olives And Orange

Tarte With Goat Cheese And Green Apple

Gurnet Fillet With Lemon Sauce Baby Potatoes And Parsley

Yogurt Mousse With Fresh Vanilla

Watermelon Salad,Feta Onion And Lemon Sauce, Balsamic Vinegar And Extra Virgin Olive Oil

Stuffed Squid With Chocolate Sauce

Tuna Fillet With Orange Confite And Red Wine Sauce

Peach Cheesecake

Green Salad With Smoked Salmon And Salmon Eggs

Mussels With Fresh White Cheese (Anthotiro) And Peppers

Sole Fillet Saute With Spring Onion And Fava (Yellow Split Peas) Fron Santorini Island

Galaktompoureko (Pastry Fillo Filled With Cream) And Orange Couli

Salad With Rocket, Parmezan Flakes, Sun Dried Tomato And Caramel Balsamic Sauce

Grilled Octapus With Chick Peas And Lemon

Anglerfish Stew With Green Talliatele

Tiramisu With Aigina Pistachios

DINNER SELECTIONS

Salad With Cretan Hard Bread , Tomato And Fresh White Cheese (Anthotiro) Grilled Vegetables Napoleon With Mastello (Chios Cheese) Bream Fillet With Crust From Cuttlefish Ink, Artichoke Mousse And Marinated Fennel Root Chocolate Souffle With Ice-Cream

Green Salad With Cottage Cheese, Walnuts And Extra Virgin Olive Oil With Herbs Cabbage Leafs Filled With Shrimps, Cracked Wheat And Egg-Lemon Sauce And Ginger T-Bone Steak With Mushrooms Sauce,Dofinouaze Potato Trifle With Coffee

Caesars Salad With Poached Egg, Parmesan Tuille And Mustard Crackers Fousili With Pesto Sauce And King Prawns Cod Fish Cooked With Safron, Green Olives And Potato Kantaifi With Pistachio And Ice Cream

Mozzarella Buffal0 With Black Eyed Beans And Fennel Rizotto Venere With Chicken Breast And Crawfish Rib-Eye With Fresh Potato Chips And Vegetable Sauce Almond Pie With Chocolate

Baby Spinach Salad, Pears With Pepper And Walnut Vinegar From Blackberry Beef Carpaccio With Caper, Parmesan And Rocket Gilthead Fillet, Vegetable Chips And Hot Balsamic Sauce Greek Loukoumades, Thyme Honey And Walnuts

Cracked Wheat Salad, Parsley,Cucumber,Tomato And Pomegrenade Sauce Goat And Feta Cheese Croquete, Orange And Cumin Sauce Pork Souvlaki, Greek Pita Bread, Tzatziki Sauce And French Fries Caltsounia (Pastry) With Manouri Cheese, Mint, Honey-Orange Sauce

Grilled Vegetables Salad And Chaloumi (Cyprus Cheese) Eggplant “Papoutsakia”, Mince Meat With Fresh Tomato Sauce Spagetti Flavored With Cutlefish Ink, Shrimps Hazelnut Cream Profiterolle

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AMADEUS is a fast cruising sailing yacht built by the famous Dynamique Yachts shipyard and totally refit in 2004, she was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design that enables her to comfortably reach top speeds of 12 knots and ensures excellent sailing performance.

This sailing yacht's generous uncluttered teak deck with a foredeck pool, offers plenty of space for sunbathing. The spacious and unique outdoor saloon has two tables, a bar and barbeque, a perfect setting for outdoor dining and entertainment. Thanks to a special canopy and roll-up windows, the deck saloon has the added attraction that it can be fully enclosed, making it ideal for all weather conditions. From the cockpit, a stairway leads to the light-filled spacious saloon offering ample seating, ideal for relaxing or enjoying a drink from the bar, and a formal dining area with seating for up to 12 guests.

Accomodation is offered for up to 12 guests in 5 spacious cabins: the bow master cabin on AMADEUS features a double bed, vanity unit and generous storage facilities, as well as audio/visual entertainment. The en-suite bath includes a shower and separate large bath. Two double cabins with additional single bunks situated forward. Two twin cabins situated aft. All cabins with en suite facilities and audio/visual entertainment. Crew of 5 in separate quarters.

Special Features :

- Fast cruising sailing yacht - Spacious teck deck, sunbathing areas - Outdoor saloon with a bar and barbecue

Tender: Novourania tender 4.20m with YAMAHA X 70hp plus MERCURY x 10hp

Activities : Wakeboard , Kayak , Snorkeling equipment , Waterskis , Fishing equipment , Monoski , Tender , Tubes .

Summer : East Mediterranean Greece - The Cyclades Islands | Turkey | Greece – The Ionian Islands

Winter : East Mediterranean Greece - The Cyclades Islands | Turkey | Greece – The Ionian Islands

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• Receive the brochure of this yacht
• FR +33 AC +247 AD +376 AE +971 AF +93 AG +1 AI +1 AL +355 AM +374 AO +244 AR +54 AS +1 AT +43 AU +61 AW +297 AX +358 AZ +994 BA +387 BB +1 BD +880 BE +32 BF +226 BG +359 BH +973 BI +257 BJ +229 BL +590 BM +1 BN +673 BO +591 BQ +599 BR +55 BS +1 BT +975 BW +267 BY +375 BZ +501 CA +1 CC +61 CD +243 CF +236 CG +242 CH +41 CI +225 CK +682 CL +56 CM +237 CN +86 CO +57 CR +506 CU +53 CV +238 CW +599 CX +61 CY +357 CZ +420 DE +49 DJ +253 DK +45 DM +1 DO +1 DZ +213 EC +593 EE +372 EG +20 EH +212 ER +291 ES +34 ET +251 FI +358 FJ +679 FK +500 FM +691 FO +298 FR +33 GA +241 GB +44 GD +1 GE +995 GF +594 GG +44 GH +233 GI +350 GL +299 GM +220 GN +224 GP +590 GR +30 GT +502 GU +1 GW +245 GY +592 HK +852 HN +504 HR +385 HT +509 HU +36 ID +62 IE +353 IL +972 IM +44 IN +91 IQ +964 IR +98 IS +354 IT +39 JE +44 JM +1 JO +962 JP +81 KE +254 KG +996 KH +855 KI +686 KM +269 KN +1 KP +850 KR +82 KW +965 KY +1 KZ +7 LA +856 LB +961 LC +1 LI +423 LK +94 LR +231 LS +266 LT +370 LU +352 LV +371 LY +218 MA +212 MC +377 MD +373 ME +382 MF +590 MG +261 MH +692 MK +389 ML +223 MM +95 MN +976 MO +853 MP +1 MQ +596 MR +222 MS +1 MT +356 MU +230 MV +960 MW +265 MX +52 MY +60 MZ +258 NA +264 NC +687 NE +227 NF +672 NG +234 NI +505 NL +31 NO +47 NP +977 NR +674 NU +683 NZ +64 OM +968 PA +507 PE +51 PF +689 PG +675 PH +63 PK +92 PL +48 PM +508 PR +1 PS +970 PT +351 PW +680 PY +595 QA +974 RE +262 RO +40 RS +381 RU +7 RW +250 SA +966 SB +677 SC +248 SD +249 SE +46 SG +65 SH +290 SI +386 SJ +47 SK +421 SL +232 SM +378 SN +221 SO +252 SR +597 SS +211 ST +239 SV +503 SX +1 SY +963 SZ +268 TC +1 TD +235 TG +228 TH +66 TJ +992 TL +670 TM +993 TN +216 TO +676 TR +90 TT +1 TV +688 TW +886 TZ +255 UA +380 UG +256 US +1 UY +598 UZ +998 VA +39 VC +1 VE +58 VG +1 VI +1 VN +84 VU +678 WF +681 WS +685 XK +383 YE +967 YT +262 ZA +27 ZM +260 ZW +263

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About Amadeus

Charter rates.

specifications

• Length 33.52M (110′)
• Beam 7.53M (25′-4″)

Builder Dynamique Yachts

• Year of build 1996

Tenders & Toys

• Fishing equipment
• inflatable canoes
• On deck pool
• Snorkeling gear

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Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2014, S/Y Amadeus was designed to please the most demanding of yachtsmen.

Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. Accommodation is offered for up to 12 guests in 5 spacious cabins (one master cabin, two identical double cabins with additional single bunks, two identical twin cabins) all with en suite facilities and audio/visual entertainment.

General Description

Carian Coast, Ionian Islands

Dynamique Yachts

1996 / 2018

Rates (MYBA Terms: + ALL)

45,500 € per week

35,000 € per week

2018 Nuvorania tender 4.60m Outboard EVINRUDE 75hp Splash pool Water Skis (adult and kids) Mono Ski Wakeboard

2 Tubes Inflatable Kayak Fishing Gear Snorkeling Equipment 4 Yoga mats

Destinations

Carian Coast

Superb historical sites set in magnificent scenery

Ionian Islands

Unforgettable Sailing Holidays

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If you have any questions about the AMADEUS information page below please contact us .

A General Description of Sailing Yacht AMADEUS

AMADEUS was previously registered as project/yacht name Amadeus 1er. This 33 metre (109 ft) luxury yacht was built by Dynamique Yachts in 1991. Sailing Yacht AMADEUS is a well proportioned superyacht. The yacht is a modern sloop with a cutter rig. The naval architecture office whom authored the design work on this ship was Philippe Briand. Luxury yacht AMADEUS is a quality yacht that is able to accommodate as many as 12 guests on board and has a total of 5 crew members.

Sailing yacht AMADEUS was built by the famous Dynamique Yachts shipyard .The yacht features superb sailing characteristics which are complimented by her spacious interior and abundant deck space. Sailing sloop AMADEUS can accommodate 10 passengers in five cabins. With one large master stateroom and four additional cabins which are all air conditioned and have en suite bathrooms. She also has two separate salons and a full dining room. The aft deck is fully covered with seating. The fore deck has an unique pool on deck and swimming in the sea is made accessible by a large swim aft platform.

The Construction & Naval Architecture relating to Luxury Yacht AMADEUS

Philippe Briand was the naval architect firm involved in the formal nautical design work for AMADEUS. Also the company Philippe Briand skillfully collaborated on this undertaking. In 1991 she was actually launched to triumph in Marans and following sea trials and final completion was afterwards passed on to the yacht owner. Dynamique Yachts completed their new build sailing yacht in France. A reasonable proportion is brought about with a maximum beam (width) of 7.5 metres / 24.6 feet. With a 3.6m (11.8ft) draught (maximum depth) she is reasonably deep. The material composite was used in the building of the hull of the sailing yacht. Her superstructure above deck is built with the use of composite. Over the deck of AMADEUS she is 32.7 (107.3 ft) in length. In 2004 extra refitting and modernisation was also finished.

Engines & Speed For S/Y AMADEUS:

She is driven by twin screw propellers. The main engine of the ship gives 375 horse power (or 276 kilowatts). She is equiped with 2 engines. The combined thrust for the boat is therefore 750 HP / 552 KW.

On board Superyacht AMADEUS She has The Following Guest Accommodation Format:

Bestowing bedding for a maximum of 12 yacht guests sleeping aboard, the AMADEUS accommodates them in style. Normally the vessel requires approximately 5 professional crewmembers to run.

A List of the Specifications of the AMADEUS:

Further information on the yacht.

Condaria is the company that installed the A/C on the yacht. AMADEUS features a teak deck.

AMADEUS Disclaimer:

The luxury yacht AMADEUS displayed on this page is merely informational and she is not necessarily available for yacht charter or for sale, nor is she represented or marketed in anyway by CharterWorld. This web page and the superyacht information contained herein is not contractual. All yacht specifications and informations are displayed in good faith but CharterWorld does not warrant or assume any legal liability or responsibility for the current accuracy, completeness, validity, or usefulness of any superyacht information and/or images displayed. All boat information is subject to change without prior notice and may not be current.

Quick Enquiry

"Indeed we believe that the first function of a sailing yacht is the aesthetics and we spent a lot of time in refining the lines during the project." - "I understood very young that to win a race you have to have the best boat, and so I started to be interested about the technology and the design of the boat." - Philippe Briand

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AMADEUS 110' Fully Crewed Sailing Yacht

• Summer Locations: Greece , Turkey Winter Locations: Greece
• Max Guests : 12    Cabins : 5    Crew : 6
• Starting at : EUR €39,500 (approx. $45,820 USD )

Charter rates do not include expenses or taxes

Her master cabin features a walk around king bed, desk/vanity, and en-suite bathroom. Additionally, there are two guest cabins each with a queen bed convertible to two twins, and two guest cabins each with a queen bed and twin bed. Each guest cabin has an en-suite.

Her main salon has a spacious, contoured conversational area, along with a large, flatscreen T.V. The aft deck features al fresco dining with Bimini top. Up on deck there are sun pads and a splash pool for you and your guests to enjoy.

Watersports offered include a 15 foot tender with 75hp engine, water skis for adults and children, tube, wakeboard, kayak, fishing gear, snorkeling gear, and rendezvous diving.

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TIGRA 124' sailing yacht

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AMADEUS 110' sailing yacht

Can sleep up to 12 guests in 5 staterooms Weekly rate starts at: EUR €39,500 (approx. $45,820 USD)

See additional pictures and info about AMADEUS »    Contact us about AMADEUS »

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Sailing Yacht | Amadeus

Fuel Capacity

Water capacity, sailing yacht amadeus | luxury crewed monohull.

Sailing yacht AMADEUS is a stunning 110 ft yacht available for charter in Greece. With a clean, spacious teak deck and a unique outdoor saloon that can seat up to 12 guests across two tables, it’s the perfect place for outdoor dining and entertainment. The deck saloon can also be enclosed with a special canopy and roll-up windows, making it suitable for use in all weather conditions. At the front of the boat, there’s a splash pool and sunbathing area with a removable awning for shade.

Inside the boat, a staircase from the cockpit leads to a well-lit and roomy saloon area with plenty of seating, including a formal dining area, bar, LCD TV, entertainment center, iPod dock station, and Playstation. Sailing Yacht AMADEUS can accommodate 10-12 guests in five large cabins, including a full-width master stateroom and two double cabins, each with an extra single bed. The two twin cabins can also be converted to doubles upon request, making her the only sailboat on the Greek market with five double beds.

To add to the fun, sailing yacht AMADEUS also comes with a range of water toys, including adult and children’s water skis, tubes, inflatable canoes, wakeboard, fishing rod, and snorkeling gear. She was built by Dynamique Yachts in 1996 and underwent a refit in 2014/2018.

ACCOMMODATION

• 1 Master cabin
• 2 VIP cabins
• 2 Twin cabins

Accomodation is offered for 10 -12 guests in 5 spacious cabins: Master cabin forward features a double bed, vanity unit and generous storage facilities, as well as audio/visual entertainment. The en-suite includess a large bath tub, shower and separate WC. Two identical double cabins with additional single bunks situated forward. Two identical double cabins situated aft which can be convertible to twins. (Total 5 double beds) All cabins with en suite facilities and audio/visual entertainment.

A professional crew of 5-6 members are accommodated in separate quarters.

Note that these specifications may vary slightly depending on the specific yacht’s configuration and modifications made by the owner.

New rigging BSI Denmark (2018) New North Sails (2016) Nuvorania tender 4.60m with a New Outboard EVINRUDE E tec 75hp Engines: 2 x 320HP Perkins Rolls Royce Generators: 1 Northern Lights x 25KW, 1 ONAN x 60KW Cruising speed: 10 Fuel consumption: 120 Litres/Hr Generators: 250 Liters/Day

Navigation and safety

• Outside GPS plotter
• Bow thruster
• Electric winches
• Classic mainsail

Saloon and cabins

• Air conditioning
• Coffee machine
• Kitchen utensils
• Pillows and blankets

Entertainment

• LCD 27″ TV, VCR, & CD entertainment systems in Saloon
• X-Box ONE X & Playstation 3 in Saloon
• Master cabin: TV, CD, & DVD entertainment systems
• Double cabins: TV, CD, & DVD entertainment systems
• Twin cabins (convertible to Doubles):TV, CD, & DVD entertainment systems

Water Sports

• Tender & Toys:
• 2018 Nuvorania tender 4.60m with a New Outboard EVINRUDE E tec75hp
• Water Skis (adult and kids)
• Inflatable Kayak
• Fishing Gear
• Snorkelling Equipment
• 4 Yoga mats
• Bathing platform
• Stand Up Paddle

Weekly price: €35,000 – €42,500

Low Season | High Season

Charter Type: Crewed

Berths: 10-12 guests, sailing area: argo-saronic, departure ports: alimos, athens, send us your request, personal information, booking information.

Odyssey Sailing is registered and bonded with the Greek National Tourist Organisation (GNTO – EOT) and is a member of the Hellenic Yacht Brokers Association (HYBA).

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Length 33,5m / 109′ ft.

Built/Last Refit 2009/2021

Weekly rate Low € 35.000

Weekly rate High € 45.500

Accommodation

Luxury yacht AMADEUS can accommodate up to 12 guests in 5 cabins. One Master cabin with small desk and en suite facilities (wc separate from bath and shower). Two double cabins with additional single bed and two twin cabins. All cabins with en suite facilities.

Charter Amenities and Extras

S/Y AMADEUS has the following extras onboard: Tenders & Toys include Novourania tender 4.20m with YAMAHA X 70hp plus, MERCURY x 10hp, Water Skis, Mono Ski, Wakeboard, 2 Tubes, Fishing Gear, Snorkelling Equipment, Communications include VHF-GMDSS, Cellular phone, Radar, E-Mail/internet access, Audio Visual Equipment and Deck Facilities include Master cabin: TV, CD, & DVD entertainment system, Double cabins: TV, CD, & DVD entertainment system, Twin cabins: TV, CD, & DVD entertainment system, Saloon: LCD 27’ TV, VCR, & CD entertainment system.

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Charter the AMADEUS

AMADEUS is a 110-foot sailing yacht that can accommodate ten to twelve passengers in five staterooms as follows: a spacious Owner’s stateroom with a double bed, a vanity and an entertainment unit including TV, DVD and music system; two cabins with a double bed and an additional single bed; two cabins with two twin beds each. All staterooms have en suite bathrooms, a TV, DVD and CD player. There are two separate salons onboard as well as a full dining room. The aft deck is fully covered and has seating for all guests to dine in the open air. Forward of the cockpit is a lovely cushioned area for sunning and an unusual pool is found in the fore of the yacht. Swimming in the sea is made accessible by the large swim aft platform.

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Yacht Specifications:

Length: (33.26m/109.11ft), yacht type: sailing yachts, beam: 24.7 ft, built: 1996 | 2018, draft: 12.10 ft, builder: dynamic, guests: 10-12, engines: 2 x 320hp perkins rolls royce, generators: 1 northern lights x 25kw, 1 onan x 60kw, fuel: 120 ltrs/hr, configuration: 1 master cabin, 2 doubles cabins with a single bed each, 2 twin cabins, cruising speed: 10 knots/hr.

(*All specifications are given in good faith and offered for informational purposes only. Yacht inventory, specifications and charter rates are subject to change without prior notice.*)

Recreational Equipment

• NEW Novorania tender 4.60m with NEW EVINRUDE 75hp plus MERCURY x 10hp • Wakeboard • Water Skis (adult and kids), Mono Ski • 2 Tubes • Kayak • 4 Yoga mats • Fishing Gear Snorkelling Equipment

Weekly Rates

High season: €42,500/week, med season: €37,500/week, low season: €35,000/week.

(*Rates are given based on a week charter / Rates are subject to change without notice*)

Customer Reviews

I could no joke die tomorrow and be a happy man. ~ Matthew F.

Although we have traveled just about all over the world, this was probably our best vacation ever. We will be back! ~ Louise Z.

Our trip was FABULOUS! More than exceeded expectations. ~ Anne G.

We have just completed a vacation that I have thought about for a lot of years. Thank you all for making a dream come true!!!! ~ Mae & Bill M.

Everyone is still talking about the trip and I cannot imagine it going any better. ~ Jack D.

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Destination Greece Turkey Montenegro and Croatia West Mediterranean

Number of Guests 1 2 - 4 4 - 6 6 - 8 8 - 10 10 - 12 12+

Number of Cabins 3 Cabin 4 Cabins 5 Cabins 6 Cabins 7 Cabins 8+ Cabins

Yacht Length 45ft - 70ft 70ft - 110ft 110ft - 130ft 130ft - 160ft 160ft +

Weekly Rate < €14,000 €14,000 - 35,000€ 35,000€ - 49,000€ 49,000€ - 70,000€ 70,000€ - 105,000€ 105,000€ - 175,000€ 175,000€ +

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AMADEUS YACHT CHARTER

21.95m  /  72'   sunseeker   2008.

• Previous Yacht

Cabin Configuration

Special Features:

• Cruising speed of 22 knots
• Sleeps 6 guests
• Williams Jet RIB

Luxury yacht Amadeus is the perfect charter platform for yachting vacations spent entertaining in style

The 21.95m/72' motor yacht 'Amadeus' by the British shipyard Sunseeker offers flexible accommodation for up to 6 guests in 3 cabins.

If you're looking for a family-friendly yacht with plenty of onboard amenities, Amadeus is the perfect choice, promising superb charter vacations whatever the destination.

Guest Accommodation

Built in 2008, Amadeus offers guest accommodation for up to 6 guests in 3 suites comprising a master suite, one VIP cabin and one twin cabin. There are 4 beds in total, including 1 queen, 1 double and 2 singles. She is also capable of carrying up to 2 crew onboard to ensure a relaxed luxury yacht charter experience.

Onboard Comfort & Entertainment

Whatever your activities on your charter, you'll find some impressive features are seamlessly integrated to help you, notably Wi-Fi connectivity, allowing you to stay connected at all times, should you wish. Guests will experience complete comfort while chartering thanks to air conditioning.

Performance & Range

Powered by twin MAN engines, she comfortably cruises at 22 knots, reaches a maximum speed of 35 knots with a range of up to 250 nautical miles.

Onboard Amadeus has a range of toys and accessories to keep you and your guests entertained on the water throughout your stay. Principle among these are Super wid waterskis that are hugely entertaining whether you are a beginner or a seasoned pro. Another excellent feature are O' Brien Ace wakeboards so guests can show off at speed. When it's time to travel from land to see, it couldn't be easier with a Williams Jet RIB.

Motor yacht Amadeus boasts an impressive array of outstanding amenities for truly out-of-this-world charter vacations that you’ll never forget.

TESTIMONIALS

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Amadeus Photos

Amenities & Entertainment

For your relaxation and entertainment Amadeus has the following facilities, for more details please speak to your yacht charter broker.

Amadeus is reported to be available to Charter with the following recreation facilities:

• 1 x Williams 325 Jet RIB 100 HP engine

For a full list of all available amenities & entertainment facilities, or price to hire additional equipment please contact your broker.

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For a full list of all available amenities & entertainment facilities, or price to hire additional equipment please contact your broker.

'Amadeus' Charter Rates & Destinations

Please contact your charter broker for a quote or check availability .

Charter Amadeus

To charter this luxury yacht contact your charter broker , or we can help you.

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40 facts about elektrostal.

Written by Lanette Mayes

Modified & Updated: 02 Mar 2024

Reviewed by Jessica Corbett

Elektrostal is a vibrant city located in the Moscow Oblast region of Russia. With a rich history, stunning architecture, and a thriving community, Elektrostal is a city that has much to offer. Whether you are a history buff, nature enthusiast, or simply curious about different cultures, Elektrostal is sure to captivate you.

This article will provide you with 40 fascinating facts about Elektrostal, giving you a better understanding of why this city is worth exploring. From its origins as an industrial hub to its modern-day charm, we will delve into the various aspects that make Elektrostal a unique and must-visit destination.

So, join us as we uncover the hidden treasures of Elektrostal and discover what makes this city a true gem in the heart of Russia.

Key Takeaways:

• Elektrostal, known as the “Motor City of Russia,” is a vibrant and growing city with a rich industrial history, offering diverse cultural experiences and a strong commitment to environmental sustainability.
• With its convenient location near Moscow, Elektrostal provides a picturesque landscape, vibrant nightlife, and a range of recreational activities, making it an ideal destination for residents and visitors alike.

Known as the “Motor City of Russia.”

Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname “Motor City” due to its significant involvement in the automotive industry.

Home to the Elektrostal Metallurgical Plant.

Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

Boasts a rich industrial heritage.

Elektrostal has a long history of industrial development, contributing to the growth and progress of the region.

Founded in 1916.

The city of Elektrostal was founded in 1916 as a result of the construction of the Elektrostal Metallurgical Plant.

Located approximately 50 kilometers east of Moscow.

Elektrostal is situated in close proximity to the Russian capital, making it easily accessible for both residents and visitors.

Known for its vibrant cultural scene.

Elektrostal is home to several cultural institutions, including museums, theaters, and art galleries that showcase the city’s rich artistic heritage.

A popular destination for nature lovers.

Surrounded by picturesque landscapes and forests, Elektrostal offers ample opportunities for outdoor activities such as hiking, camping, and birdwatching.

Hosts the annual Elektrostal City Day celebrations.

Every year, Elektrostal organizes festive events and activities to celebrate its founding, bringing together residents and visitors in a spirit of unity and joy.

Has a population of approximately 160,000 people.

Elektrostal is home to a diverse and vibrant community of around 160,000 residents, contributing to its dynamic atmosphere.

Boasts excellent education facilities.

The city is known for its well-established educational institutions, providing quality education to students of all ages.

A center for scientific research and innovation.

Elektrostal serves as an important hub for scientific research, particularly in the fields of metallurgy, materials science, and engineering.

Surrounded by picturesque lakes.

The city is blessed with numerous beautiful lakes, offering scenic views and recreational opportunities for locals and visitors alike.

Well-connected transportation system.

Elektrostal benefits from an efficient transportation network, including highways, railways, and public transportation options, ensuring convenient travel within and beyond the city.

Famous for its traditional Russian cuisine.

Food enthusiasts can indulge in authentic Russian dishes at numerous restaurants and cafes scattered throughout Elektrostal.

Home to notable architectural landmarks.

Elektrostal boasts impressive architecture, including the Church of the Transfiguration of the Lord and the Elektrostal Palace of Culture.

Offers a wide range of recreational facilities.

Residents and visitors can enjoy various recreational activities, such as sports complexes, swimming pools, and fitness centers, enhancing the overall quality of life.

Provides a high standard of healthcare.

Elektrostal is equipped with modern medical facilities, ensuring residents have access to quality healthcare services.

Home to the Elektrostal History Museum.

The Elektrostal History Museum showcases the city’s fascinating past through exhibitions and displays.

A hub for sports enthusiasts.

Elektrostal is passionate about sports, with numerous stadiums, arenas, and sports clubs offering opportunities for athletes and spectators.

Celebrates diverse cultural festivals.

Throughout the year, Elektrostal hosts a variety of cultural festivals, celebrating different ethnicities, traditions, and art forms.

Electric power played a significant role in its early development.

Elektrostal owes its name and initial growth to the establishment of electric power stations and the utilization of electricity in the industrial sector.

Boasts a thriving economy.

The city’s strong industrial base, coupled with its strategic location near Moscow, has contributed to Elektrostal’s prosperous economic status.

Houses the Elektrostal Drama Theater.

The Elektrostal Drama Theater is a cultural centerpiece, attracting theater enthusiasts from far and wide.

Popular destination for winter sports.

Elektrostal’s proximity to ski resorts and winter sport facilities makes it a favorite destination for skiing, snowboarding, and other winter activities.

Promotes environmental sustainability.

Elektrostal prioritizes environmental protection and sustainability, implementing initiatives to reduce pollution and preserve natural resources.

Home to renowned educational institutions.

Elektrostal is known for its prestigious schools and universities, offering a wide range of academic programs to students.

Committed to cultural preservation.

The city values its cultural heritage and takes active steps to preserve and promote traditional customs, crafts, and arts.

Hosts an annual International Film Festival.

The Elektrostal International Film Festival attracts filmmakers and cinema enthusiasts from around the world, showcasing a diverse range of films.

Encourages entrepreneurship and innovation.

Elektrostal supports aspiring entrepreneurs and fosters a culture of innovation, providing opportunities for startups and business development.

Offers a range of housing options.

Elektrostal provides diverse housing options, including apartments, houses, and residential complexes, catering to different lifestyles and budgets.

Home to notable sports teams.

Elektrostal is proud of its sports legacy, with several successful sports teams competing at regional and national levels.

Boasts a vibrant nightlife scene.

Residents and visitors can enjoy a lively nightlife in Elektrostal, with numerous bars, clubs, and entertainment venues.

Promotes cultural exchange and international relations.

Elektrostal actively engages in international partnerships, cultural exchanges, and diplomatic collaborations to foster global connections.

Surrounded by beautiful nature reserves.

Nearby nature reserves, such as the Barybino Forest and Luchinskoye Lake, offer opportunities for nature enthusiasts to explore and appreciate the region’s biodiversity.

Commemorates historical events.

The city pays tribute to significant historical events through memorials, monuments, and exhibitions, ensuring the preservation of collective memory.

Promotes sports and youth development.

Elektrostal invests in sports infrastructure and programs to encourage youth participation, health, and physical fitness.

Hosts annual cultural and artistic festivals.

Throughout the year, Elektrostal celebrates its cultural diversity through festivals dedicated to music, dance, art, and theater.

Provides a picturesque landscape for photography enthusiasts.

The city’s scenic beauty, architectural landmarks, and natural surroundings make it a paradise for photographers.

Connects to Moscow via a direct train line.

The convenient train connection between Elektrostal and Moscow makes commuting between the two cities effortless.

A city with a bright future.

Elektrostal continues to grow and develop, aiming to become a model city in terms of infrastructure, sustainability, and quality of life for its residents.

In conclusion, Elektrostal is a fascinating city with a rich history and a vibrant present. From its origins as a center of steel production to its modern-day status as a hub for education and industry, Elektrostal has plenty to offer both residents and visitors. With its beautiful parks, cultural attractions, and proximity to Moscow, there is no shortage of things to see and do in this dynamic city. Whether you’re interested in exploring its historical landmarks, enjoying outdoor activities, or immersing yourself in the local culture, Elektrostal has something for everyone. So, next time you find yourself in the Moscow region, don’t miss the opportunity to discover the hidden gems of Elektrostal.

Q: What is the population of Elektrostal?

A: As of the latest data, the population of Elektrostal is approximately XXXX.

Q: How far is Elektrostal from Moscow?

A: Elektrostal is located approximately XX kilometers away from Moscow.

Q: Are there any famous landmarks in Elektrostal?

A: Yes, Elektrostal is home to several notable landmarks, including XXXX and XXXX.

Q: What industries are prominent in Elektrostal?

A: Elektrostal is known for its steel production industry and is also a center for engineering and manufacturing.

Q: Are there any universities or educational institutions in Elektrostal?

A: Yes, Elektrostal is home to XXXX University and several other educational institutions.

Q: What are some popular outdoor activities in Elektrostal?

A: Elektrostal offers several outdoor activities, such as hiking, cycling, and picnicking in its beautiful parks.

Q: Is Elektrostal well-connected in terms of transportation?

A: Yes, Elektrostal has good transportation links, including trains and buses, making it easily accessible from nearby cities.

Q: Are there any annual events or festivals in Elektrostal?

A: Yes, Elektrostal hosts various events and festivals throughout the year, including XXXX and XXXX.

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Our commitment to delivering trustworthy and engaging content is at the heart of what we do. Each fact on our site is contributed by real users like you, bringing a wealth of diverse insights and information. To ensure the highest standards of accuracy and reliability, our dedicated editors meticulously review each submission. This process guarantees that the facts we share are not only fascinating but also credible. Trust in our commitment to quality and authenticity as you explore and learn with us.

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Built by the famous Dynamique Yachts shipyard and having undergone a refit in 2018, sailing Yacht Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance. ...

The 33.5m/109'11" 'Amadeus' sail yacht built by the French shipyard Dynamiq is available for charter for up to 10 guests in 5 cabins. This yacht features interior styling by French designer Philippe Briand. Whether you are after the thrill of sailing or prefer to kick back, Amadeus is custom-built for adventure, offering a ring-side seat at the heart of the action once her sails have unfurled ...

Sailing yacht AMADEUS is a luxury vessel that measures 33.5m (109.9ft) in length. She was built by the famous Dynamique Yachts shipyard in 1995 and received a total refit in 2004 and smaller refits in 2012/14 and 2018 plus new interior fabrics in 2022. AMADEUS is an elegant cutter rigged sloop with a sleek hull design painted in an eye-catching ...

Amadeus Description. Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing ...

Length : 30.2 m / Passengers : 8. Special features : - One of the most elegant SW100- Excellent and experienced crew- Very elegant interiors- Available in West and East Med- Large outdoor spaceTender: 4.30... Price Per week from : 46 000€. View this yacht. AMADEUS is a fast cruising sailing yacht built by Dynamique Yachts and totally refit in ...

The 23.85m/78'3" sail yacht 'Amadeus' was built by Custom. Her interior is styled by design house Jean Marc Piaton and she was completed in 2018. Guest Accommodation. Amadeus has been designed to comfortably accommodate up to 8 guests in 4 suites. She is also capable of carrying up to 2 crew onboard to ensure a relaxed luxury yacht experience.

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2018. S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design. Comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

The yacht is maintained in excellent condition with a five-star crew year round. Sailing Yacht Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

AMADEUS I is a 44m/144' motor yacht for charter delivered by the Timmerman shipyard in 2014. Considered as a great luxury charter yacht for friends and family, AMADEUS I was fully upgraded in 2019. Her key features include a huge sundeck with a jacuzzi pool plus a brand-new beach club with a gym and sauna at sea level.

Built by the famous Dynamique Yachts shipyard, and having undergone a total refit in 2014, S/Y Amadeus was designed to please the most demanding of yachtsmen. Built for smooth sailing, this elegant cutter rigged sloop has a sleek hull design, comfortably reaching top speeds of 12 knots and ensuring excellent sailing performance.

AMADEUS was previously registered as project/yacht name Amadeus 1er. This 33 metre (109 ft) luxury yacht was built by Dynamique Yachts in 1991. Sailing Yacht AMADEUS is a well proportioned superyacht. The yacht is a modern sloop with a cutter rig. The naval architecture office whom authored the design work on this ship was Philippe Briand.

Amadeus is a 33.5 m sailing yacht. She was built by Dynamique Yachts in 1991. With a beam of 7.5 m and a draft of 3.9 m. The sailing yacht can accommodate 12 guests in 5 cabins. The yacht was designed by Philippe Briand.

Launched in 1996 by Dynamique Yachts, Amadeus is a 110 foot sailing sloop. To keep her up to date and comfortable for her guests, she has received refits in 2014 and 2018. She has been fitted with twin 320hp Perkins Rolls Royce engines for power, along with her sails.

33.5m / 109'11 Dragos Yachts 1996 / 2007. The 34.75m/114' 'Amadeus' motor yacht built by shipyard Dragos Yachts is available for charter for up to 12 guests in 5 cabins. This yacht features interior styling by Ugar Kose. Built in 1996, Amadeus's bespoke fittings and design ensure guests can explore the ocean's wonders in style and comfort.

Sailing Yacht AMADEUS can accommodate 10-12 guests in five large cabins, including a full-width master stateroom and two double cabins, each with an extra single bed. The two twin cabins can also be converted to doubles upon request, making her the only sailboat on the Greek market with five double beds.

Fully crewed Sailing Yacht AMADEUS available for private yacht charter in Greece, the best sailing holidays & vacation in the Greek Islands. +30 6948 295 207. [email protected] . Aten, Solonos 22-24, Agii Anargiri 135 61, Greece ... Sailing Yachts; Motor Sailer; Yacht Charter Terms; V.I.P. Services; Destinations; About us;

Charter theAMADEUS. AMADEUS is a 110-foot sailing yacht that can accommodate ten to twelve passengers in five staterooms as follows: a spacious Owner's stateroom with a double bed, a vanity and an entertainment unit including TV, DVD and music system; two cabins with a double bed and an additional single bed; two cabins with two twin beds each.

AMADEUS I is a 44m luxury motor super yacht available for charter built in 2014, refitted in 2019. Charter up to 10 guests in 5 cabins (1 Master, 2 VIP, 3 Double & 2 Twin) with a crew of 9. She is also available for events and corporate charter.

No:7 Kuşadası 09400 Aydın. + (90) 256 340 03 40. [email protected] . Mon - Fri: 9:00 - 18:00. Closed on Weekends. Istanbul Branch - Türkiye. Moscow - Russia. London - United Kingdom. New York - United States of America.

Küçükbakkalköy Mah. Fevzipaşa Cad. Bozkır Sok. No:1 ,K:3 D:15 Ataşehir 34750 Istanbul + (90) 216 900 28 62 +(90) 216 576 47 90. [email protected]

Get directions to Yuzhny prospekt, 6к1 and view details like the building's postal code, description, photos, and reviews on each business in the building

The 21.95m/72' 'Amadeus' motor yacht built by the British shipyard Sunseeker is available for charter for up to 6 guests in 3 cabins.. Primed for exploring secluded beaches and tucked-away lagoons or simply relaxing and soaking up the rays onboard, motor yacht Amadeus is tailor-made for family fun.

Known as the "Motor City of Russia." Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname "Motor City" due to its significant involvement in the automotive industry.. Home to the Elektrostal Metallurgical Plant. Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

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• By Patrick Sciacca
• October 13, 2023

For every shoe, there’s a foot, and for every boating enthusiast, there’s a yacht. For those individuals who like to cruise their yachts across blue water, spend months on board or voyage to remote beaches and quiet coves, a trawler yacht is the go-to vessel choice. But even within this yacht genre, there are many options. For example, there are some mighty midsize trawlers that are easily capable of transatlantic crossings for an adventurous couple, and then there are megayacht-size craft with next-level amenities that require extra crew. Some trawler-yacht builders offer significant customization and others work from a fixed options list. There are single-engine trawlers and twin-engine trawlers. One thing that is common is that these trawler yachts are designed from the ground up for yachtsmen with wanderlust in their hearts.

Top Trawlers 

The following 15 trawlers are all vessels we’ve written about. They are listed in no particular order.

• Nordhavn 96 : Built for an owner who desired to self-sufficiently while cruising the world, literally.
• Beneteau Grand Trawler 62 : This trawler can travel nonstop for 1,000 nautical miles.
• Kadey-Krogen 52 : This twin-engine-capable, all-oceans trawler is a solid fit for voyaging cruising couples.
• Bering Yachts B76 : The B76 is the builder’s first fully custom trawler in this size range.
• Ranger Tugs R-43 Command Bridge : This vessel is equally comfortable at a 7-knot stroll or an 18-knot jog.
• Beneteau 48 Swift Trawler : Based on the builder’s Swift Trawler 47, this yacht has a resin-infused fiberglass hull.
• Kadey-Krogen 50 Open : The 50 Open can cruise at 6 knots nonstop for 5,000 nautical miles.
• Outer Reef 620 Trident : It has a three-stateroom layout and optional 600 hp Cummins diesels.
• Grand Banks 60 Skylounge : This yacht is efficient across a variety of cruising speeds.
• Krogen Express 52 : Headroom to spare, two staterooms, a chef-ready galley and long range define this trawler yacht.
• Grand Banks 85 Skylounge : Grand Banks’ V-warp hull form makes for a level running attitude, seakindliness and long range.
• Vicem Yachts 82 Classic : Construction is in cold-molded, strip-planked mahogany with epoxy.
• Outer Reef 610 Motoryacht : Power on this Outer Reef is a pair of 500 hp John Deere 6090 diesels.
• Nordhavn 59 Coastal Pilot : Did someone say this is a 20-knot Nordhavn?
• Marlow 58E : A high level of customization and admirable performance are at the heart of the Marlow 58E.

Nordhavn 96

The Nordhavn 96 is the yacht builder’s second-largest yacht its 17-model fleet, which ranges from 41 to 120 feet length overall. (There is a new 112 on the drawing table.) The builder says the N96 is based on its earlier 86-footer with a 10-foot cockpit extension, which increases both main-deck, skylounge and below-deck volume. The N96 we reviewed was built by an owner who previously had an 86-foot Nordhavn, but with his plans for extended cruises to remote destinations, the 96 was the right size for his voyaging plans. In fact, since the owner took delivery of the boat, it has been on a continuous circumnavigation.

Quick Specifications

Beneteau Grand Trawler 62

Beneteau’s Grand Trawler 62 has 1,000-plus-mile range and 20-knot speed with twin 730 hp i6 MAN diesels . The Grand Trawler 62 is the builder’s flagship in its Trawler series, which also includes the Swift Trawler 35 , Swift Trawler 41 Sedan ,  Swift Trawler 41 Fly and Swift Trawler 48 . Small touches set the Beneteau Grand Trawler 62 apart. They include sea rails on all lockers to keep stowed food and gear in place, leather-wrapped interior handrails for security in a seaway, and leather drawer pulls like those found on larger yachts. Long-range cruising accommodations include a full-beam master stateroom aft, a forepeak VIP and twin-berth guest stateroom. A Quick X3 gyrostabilizer helps mitigate any potential rocking and rolling on rough days.

Kadey-Krogen 52

The Kadey-Krogen 52 is the trawler-yacht builder’s smallest offering in its raised-pilothouse series, complete with a Portuguese Bridge. Owners can choose from either a two- or three-stateroom layout, and between a single-diesel engine or twin-diesel engines, for owners seeking redundancy. The standard engine is a 231 hp John Deere diesel. With the single-engine setup, draft is 5’5” and with twins it’s a shallower 4’6”. At 6 knots, range is an ocean-crossing 4,850 nautical miles. At 7 knots, it’s 3,300 nm. At 9 knots, it 1,700 nm. The builder states, “The entire Krogen 52 is built from only three molded pieces for maximized structural integrity. There are no additional secondary bonds or caulk joints that can inevitably cause issues. All deck and superstructures are cored and vacuum-bagged to maximize strength while minimizing weight.” Additionally, six longitudinal stringers enhance overall strength.

Bering Yachts B76

Lemanja  is the first custom boat that Bering has built in this size range. The yacht is notable for its steel hull and aluminum superstructure, and for its 4,000-nautical-mile-plus range with its twin 404 hp Cummins QSL9 diesel engines. As rugged as the Bering 76 is built on the outside, it also offers homelike comforts in its skylounge inside, offering panoramic views out large windows surrounding the space. Sole-to-ceiling glass offers similar views in the open-plan salon. Accommodations are fox six guests in three staterooms with a master stateroom and two guest staterooms, plus crew accommodations. In addition to its traditional diesel engines, the B76 has a solar-rechargeable battery bank for hybrid propulsion.

Ranger Tugs R-43 Command Bridge

The Ranger Tugs R-43 Command Bridge is a long-distance cruiser with creature comforts. Our expert found the R-43 Command Bridge to be a solid candidate to cruise The Great Loop . We agree. Twin Volvo Penta IPS450 pod drives give the boat efficient low and high cruise speeds at 7 and 18 knots, respectively. For those that have work during their cruise, the R-43 Command bridge’s master stateroom is set up with an office with a desk. Long trips require extra stowage and a way to clean salty clothes, so on the R-43 Command Bridge there is a washer, dryer, auxiliary refrigerator/freezer and stowage under the dinette, which rises on electric rams. Voyagers who buy a R-43 Commander Bridge can opt for a Factory Delivery Experience, which is three days of instruction on Puget Sound, and includes in boat systems, handling and maintenance.

Beneteau Swift Trawler 48

The Beneteau Swift Trawler 48 has a 1,300-nautical-mile range at 8 knots, but can also speed away at 26 knots if the weather goes south in a hurry. Based on the builder’s 47-footer , the three-stateroom, two-head Swift Trawler 48 has a resin-infused fiberglass hull. Power is a pair of 425 hp Cummins diesels. The main-deck layout includes a galley aft setup, which is accessible to the cockpit. There, the seating and dining area can be fully enclosed, with tracks in place for side curtains. The helmsman is kept comfortable on long passages with a bolstered, pedestal bucket-style seat with a flip-up footrest. The Swift Trawler 48 we reviewed had upgraded 12-inch Raymarine HybridTouch displays (9-inch screens are standard).

Kadey-Krogen 50 Open

Designed for serious extended cruising,  Kadey-Krogen Yachts 50 Open provides owners with amenities that will enhance those longer passages. The galley is fitted with a Sub-Zero refrigerator and freezer, a four-burner Wolf range, a microwave and an optional dishwasher. Unlike in many trawlers and their traditional pilothouse design, the galley is located on the same level as the helm and salon. Belowdecks is the master stateroom amidships with two hanging lockers, 12 cabinets, additional drawers for stowage and an en suite head, shower and two sinks. Forward of the master is an office. The 50 Open’s hull has soft chines and a curved after end, much like the characteristics of a sailboat built for cruising. The result is an efficient hull form that provides a gentle landing into troughs when the sea gets a temper. This trawler can cruise at 6 knots for 5,000 nautical miles; 7 knots for 3,000 nautical miles; 8 knots for 2,100 nautical miles; and 9 knots for 1,200 nautical miles.

Outer Reef 620 Trident

Outer Reef Yachts 620 Trident delivers a three-stateroom layout and optional 600 hp Cummins diesels that allow this vessel to approach a top hop of 21 knots. Cruising speed is a little over 16 knots, burning about 34 gallons of fuel per hour at 2,750 rpm. The amidships master stateroom has 6-foot-8-inch headroom, a walk-in closet and a shower enclosed in smoked glass. In the forepeak VIP stateroom, there are seven drawers, a hanging locker, a 31-inch Samsung TV and 7-foot headroom. The portside guest stateroom can convert to an office, too. The aft galley has a U-shape countertop, a three-burner electric cooktop, a Bosch microwave and a Vitrifrigo refrigerator and freezer. Cherry, walnut and oak are the available wood options.

Grand Banks 60 Skylounge

It’s obvious after a quick peek inside the Grand Banks 60 Skylounge that the  Grand Banks Yachts  trademark external DNA is retained. The deck, cabin house and skylounge are all composed of infused carbon fiber, reducing weight aloft and creating a lower center of gravity. With twin 900 hp Volvo Penta D13 diesels , the 60 Skylounge can accelerate to 31 knots and cruise at about 25 knots. The 60 Skylounge can also travel up to 2,000 nautical miles at 10 knots on a 1,530-gallon fuel tank. Twin 1,000 hp Volvo Penta IPS1200s are also available.

Krogen Express 52

The Krogen Express 52 runs on twin 440 hp Yanmar diesels and can cruise at 8 knots for 1,680 nautical miles or at 16 knots for 500 nautical miles. Top hop:  22 knots. In the interior,  Krogen Express  has outfitted the 52 with a master stateroom and a guest stateroom. The former has a queen island berth, more than 7-foot headroom, hanging lockers and smaller cubbies to port and to starboard, and an en suite head with a molded fiberglass shower stall with a seat, a VacuFlush toilet and a granite countertop. A power lift elevates the berth and grants access to more stowage underneath. The Krogen Express 52’s salon has a 26-inch HD LED TV and a home-theater system, leather Stressless chairs to port and a built-in, L-shape settee to starboard. The galley boasts granite countertops, a three-burner Force 10 propane range with an oven, a refrigerator, a GE microwave oven, a deep Elkay sink and a pullout sprayer faucet. There is a Buff Ultraleather Stidd helm seat for extra comfort during long runs.

Grand Banks 85 Skylounge

The Grand Banks 85 Skylounge comes in at more than 87 feet length overall and displaces 108,000 pounds, with a 22-plus-foot beam and an air draft of just under 26 feet. Owners can choose either a three- or four-stateroom layout. The standard motors are twin 1,000 hp Volvo Penta IPS diesels, twin 1,300 hp MAN straight-shaft diesels are optional. With the larger engines, owners can also choose an optional stern thruster, in addition to the standard bow thruster. With the IPS diesels, top speed is 26.5 knots and fuel burn is 100 gallons per hour, resulting in a range of 699 nautical miles. At a 21-knot cruise speed, fuel consumption drops to 57 gph, and range climbs to 972 nm. At a 9-knot jog, fuel burn falls to 9 gph, and the Grand Banks 85 Skylounge can cruise nonstop for about 2,500 nautical miles.

Vicem 82 Classic Flybridge

The Vicem 82 Classic is a flybridge model built in cold-molded mahogany, which creates a stout hull form with reduced weight. The yacht is notable for its timeless Downeast lines and strong joiner work. For cruising enthusiasts, the Classic 82 Flybridge is powered with twin 900 hp Volvo Penta D13 diesels . The yacht has a top-end speed of 17.8 knots, and the cruising speed is 15 knots. At 9 knots, and considering a 10-percent fuel reserve, range is reportedly 1,100 nautical miles.  Accommodations three en-suite-equipped staterooms. The master stateroom is full-beam and amidships with a king-size berth is on centerline. The starboard-side guest stateroom and a forepeak VIP each have queen-size berths.

Outer Reef 610 Motoryacht

Built for an enthusiastic cruising couple after a three-year boat search, the Outer Reef Yachts 610 Motoryacht (part of the builder’s Classic series ), was customized with a fore-and-aft berth in the owners’ stateroom (as in, not athwartships), and berths rather than bunks in the smaller of two guest staterooms. This Outer Reef 610 was designed to be used as a liveaboard vessel, so the salon is not set up for dining (there are tables in the pilothouse, on the aft deck and on the bridge). A pair of swivel chairs in the salon face the built-in couch and the pop-up TV to port. The 610 is built with hand-laid fiberglass, PVC coring above the waterline, resin infusion and a vinylester barrier coat against osmosis. Power is twin 500 hp John Deere 6090 diesels turning ZF transmissions . The 610 tops out at about 13.5 knots with full tanks and 21 people aboard. The engines burn 20 gph at 1,800 rpm for 11 knots at 45 percent engine load. Those numbers should allow it to cross oceans without shortening engine life.

Nordhavn 59 Coastal Pilot

Nordhavn has long been known for its stout circumnavigation -capable craft, and the Nordhavn 59 Coastal Pilot carries on the the tradition of a beefy build with addition of…speed. Twenty-knots-plus, actually. Twin 715 hp Cummins diesel inboards and a new semidisplacement hull form  are said to be key to the performance equation. The Nordhavn 59CP has a 777-nautical-mile range at a 9.3-knot cruise, and a 255-nm range at its 20.3-knot top-end. Construction is a solid fiberglass hull bottom supported by full-length longitudinal stringers and a series of transversal supports for added backbone. High freeboard should keep the decks dry in a seaway, while rails keep the crew secure during transits. Nordhavn says the 59CP has a “CE category A unlimited offshore rating, ensuring the vessel has the seakeeping and strength capabilities to take on most serious coastal cruises up to 1,000 miles.”

Marlow Yachts 58E

Following on the successful Marlow 57 , the Marlow 58E was started from scratch on a blank sheet of paper. The essence of the 58E is that it has better performance and more internal and external volume than her predecessor. The centerline length grew 10 inches over the 57, but the waterline length increased 16 inches and the beam widened 4 inches. If you were to examine the two boats out of the water, you would see more bell-shaped forward sections making for a soft impact with the vee’d portion. Power options start with twin 575 hp Caterpillar C9 diesels, but the 58E we got aboard had beefier twin 1,015 hp Caterpillar C18 diesels. Top speed: 27.9 knots. At 8 knots, the Marlow 58E can cruise nonstop for 1,400 nautical miles.

Frequently Asked Questions:

What is a trawler yacht?

A true trawler typically has a full-displacement hull form and robust construction to handle open-water operation, and it’s designed to operate self-sufficiently for long periods of time. They are slow-cruising vessels, but over the years, hybrid yachts called fast trawlers have emerged to offer displacement-speed operation as well as the ability to run at planing speeds when desired.

What is a full-displacement hull form?

A displacement-hull form is known is for its rounded nature and deep draft. Full-displacement vessels do not plane on the water, but rather push through the water. This hull design makes displacement-hull vessels incredibly seakindly, but it also makes them relatively slow (think 5, 6, 7, 8 knots) when compared to semidisplacement- and planning-hull designs.

Is a long-range cruiser the same as a trawler?

While all trawlers are certainly long-range cruisers, not all long-range cruisers are trawlers. True trawlers will have full-displacement hull designs and not all long-range cruisers have them.

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60 feet Trawlers for Sale

Discover the world of luxury and adventure with our exquisite selection of 60-foot trawler yachts for sale. These magnificent vessels are designed to offer unparalleled comfort and style while navigating the open seas. Built with state-of-the-art materials and innovative engineering, they boast exceptional fuel efficiency and remarkable stability, ensuring long-range cruising capabilities for the most ambitious voyagers. Featuring spacious living quarters, modern amenities, and sophisticated navigational systems, these yachts cater to the discerning buyer who seeks the perfect blend of form and function. Embark on a journey of discovery and indulge in the ultimate maritime experience aboard your dream 60-foot trawler yacht.

Used 60 feet Trawlers Sale

19.04m | Nordhavn | 2018

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18.89m | Beneteau | 2022

17.67m | Kadey krogen | 2015

SILVER ROMANCE

17.68m | Silver yachts | 1956

17.37m | Northern marine | 2004

16.99m | Cranchi | 2017

16.9m | Azimut yachts | 2016

If there are no brokerage yachts available on the market, you can get in touch with our brokers to find an off market one or build a new one. 

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Used Beneteau Yachts For Sale

Groupe Beneteau is the largest boat building enterprise in the world, employing 7,600 men and women to create 12 different brands and 180 boat models. Known as a quality builder that builds honest value into each boat, it has allowed thousands of boaters to enjoy quality time on the water, whether on a Beneteau, Jeanneau, Prestige, Lagoon, or any of their other brands.

(Seattle Yachts provides access to thousands of boats and yachts available on the market today. These new and used yachts for sale around the world and on the MLS may or may not be listed with Seattle Yachts, however we have the expert team on staff to help you with the purchase of any brand or type of boat.)

Search Beneteau by Price

Search beneteau by length, search beneteau by year, continue reading about used beneteau yachts for sale.

The brand Beneteau is one of the oldest, family-owned boat builders in the world, with a history that goes back to 1884. Originally building wood fishing boats, as new technology became available, the company began building fiberglass sailboats in the mid-1960s. The company started selling sailboats in the U.S. when they opened an office in Annapolis in 1976. Since then, they have expanded to 50 dealers across North America. Today they have 400 dealers in 150 countries, making it the largest recreational boat builder in the world.

Beneteau has long produced lines of sailboats and, in more recent years, it expanded into powerboats for the world market. The sailboat lines include the cruiser friendly Oceanis line, with six models from 51 to 32 feet. The first Oceanis was introduced in 1986, and the evolution has continued ever since. The latest models take advantage of design advances to allow a more comfortable angle of heel by maximizing hull form stability, with wide beam carried from stern to bow. This hull shape allows larger accommodations for owners and guests, and the large design and engineering teams are proud of its contemporary use of space and furnishings.

The list of options in layout, equipment, and finish offered by Beneteau is amazingly diverse. The Oceanis 46.1, as one example, offers optional layouts of three cabins/two heads, three cabins/three heads, four cabins/two heads, four cabins/four heads, and five cabins/three heads.

In addition, there are six levels of rigging packages, and three levels of electronics. From owner operated sailing yachts to fully outfitted charter boats, the Oceanis 46.1 can be configured to serve many needs and preferences.

The company also builds a higher level yacht finish with its Oceanis Yacht line, with two models from 54 to 60 feet. These are luxury yachts with elegant interiors and modern interpretations of liveaboard accommodations, deck layout and wide, walk-around side decks. 

Another model, the First Yacht 53, is a high-performance sailboat that also can go the distance in comfort and luxury.

All Oceanis and First Yacht models are CE certified for Class A Open Ocean.

For coastal and local cruising, Beneteau offers several other sailing models that combine fun on the water, club racing, and relaxed sailing The First series has four models from 36 feet down to 14 feet. These boats fit the roles of family cruiser, club racing, and general daysailing. Popular with younger sailors and small families, the First series provides maximum fun and great value in a low maintenance boat. The new First SE (Seascape Edition) takes the First concept into the one-design category for competitive one-design and adventure sailing.

Finally, Beneteau offers the Figaro Beneteau 3, the world’s first production, foiling one-design sailboat, a collaboration between Beneteau and the Van Peteghem Lauriot-Prevost design office, architects of the last two winning Vendee Globe around the world races.

The company also builds powerboats, and these range from smaller runabout-style day boats of the Flyer line, ideal for water sports and wake boarding, to express cruisers and the nine sport boat models in the Antares and Gran Turismo lines. These are family cruisers that balance performance and comfort with value.

When Beneteau decided to bring its boat building expertise into the trawler world, it came out with its own version of the cruising trawler with the Swift Trawler. Designed for comfortable long-distance cruising at higher speed than a traditional trawler , the company now offers four models from 48 to 35 feet. All told Beneteau has built over 1,300 Swift Trawlers to date. Each of these “fast” trawlers is perfectly suited for the Great Loop and local and coastal cruising during the season. The semi-displacement hull form and twin diesel engines allow higher speeds when desired, making the next destination a matter of hours rather than long days under way.

More recently, Beneteau has taken the cruising motorboat concept into the future, with the introduction of the Grand Trawler 62. This new and exciting yacht enters new territory in terms of design aesthetics, features, and accommodations. The Grand Trawler 62 is the new flagship of the powerboat line.

Given the tremendous manufacturing volume at Beneteau over the past several decades, there are hundreds of the popular models for sale at any given time. The popularity of the brand means it is relatively easy to find one with the right equipment and in satisfactory shape to avoid buying a boat project. Searching the various multiple listing sites, it doesn’t take long to find a potential boat that matches one’s criteria within a certain radius of geography. 

It should also be noted that, with so many boats out there, the service and repair facilities are familiar with the boats, and the number of dealers located around the country also add tremendously to the boat buying and boat ownership experience.

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T43 Trawler

Propulsione

Dispositivi di navigazione, dotazioni di coperta, aria condizionata / riscaldamento, disposizione interni, dotazioni sottocoperta.

Puoi richiedere maggiori dettagli o inviare la tua offerta a Kim Allen or Neil Mallandain

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Cantiere / Modello / Codice IDO

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RICERCA IMBARCAZIONE - MONDIALBROKER

Cantiere / Modello

Inserzionista.

IDO 00899627

Motori:  2x370 HP Cummins Diesel

Trowler Alaska 13.70, anno 2004, 3 cabine 2 bagni, 2x370 Cummins linea-assi diretta Accessoriata con: Elica di prua Aria condizionata Generatore ONA

Lunghezza:  13,70 mt

Anno:  2004

Nauticamato S.r.l.

IDO 00898608

Motori:  2x350 HP CATERPILLAR Diesel

Bellissimo Trawler in ottime condizioni con 2 motori CATERPILLAR da 350 hp cad, nuovi del 2002, 700 ore di moto. numerosi lavori 2021/2022

Lunghezza:  13,90 mt

Anno:  1983

IDO 00897879

Motori:  2x435 horsepower Volvo Penta Diesel

Imbarcazione pari al nuovo - tenuta in maniera perfetta - ricchissima dotazione di accessori - motori e trasmissioni seguiti da officina Volvo Pent...

Lunghezza:  17,00 mt

Anno:  2018

Alto Tirreno (Italy)

GIAMPAOLI YACHT Mediatore Marittimo CCIAA La Spezia

IDO 00897528

Motori:  2x165 HP Ford Lehman Diesel

In Central Agency alla Given For Yachting, Hermione attende il suo nuovo armatore. Contattateci per ogni informazione.

Lunghezza:  13,18 mt

Anno:  1973

Given For Yachting Srl Unipersonale

IDO 00897661

Motori:  2x240 HP Yanmar Diesel

Questo è il classico trawler americano che merita essere visto per il modello che è ma soprattutto perchè impeccabile grazie ad un armatore meticoloso

Lunghezza:  12,80 mt

Anno:  2007

INVISTAMARE DI SIMONA DE ANGELIS

IDO 00897353

Motori:  2x730 HP MAN Diesel

Contattateci per ulteriori informazioni

Lunghezza:  16,47 mt

Anno:  2024

Mare Adriatico

Nautica del Delta S.r.l.

IDO 00896319

Motori:  2x570 HP FPT Diesel

SUNDECK 580 TRAWLER - OTTIME CONDIZIONI - [email protected] ☏ (+39) 0185.1600000-☏ (+39) 338.1003320

Lunghezza:  16,30 mt

PU.MA BROKERS LAVAGNA (GE) ITALY

PUMA BROKERS

IDO 00895651

Motori:  2x160 HP Volvo Penta Diesel

Classico Trawler in vetroresina 42 piedi anno 1981 OTTIME CONDIZIONI GENERALI come da foto Qualche lavoro estetico da eseguire Meccanica e carena in o

Lunghezza:  12,73 mt

Anno:  1981

Friuli-Venezia Giulia

Yacht Diffusion Viareggio

IDO 00895867

Motori:  2x380 HP Caterpillar Diesel

Trawler in ottimo stato con motorizzazione maggiorata CAT 380. Tanti lavori eseguiti negli ultimi 2 anni. Imbarcazione per lunghe crociere a basso cos

Lunghezza:  12,95 mt

Anno:  1992

Mare Ligure

Nord Est Yacht Broker

IDO 00895858

Trawler mantenuto in eccellenti condizioni da armatore molto preparato con tanti anni di esperienza. Solo alcuni degli accessori principali: Generator

Lunghezza:  15,14 mt

Anno:  2001

Adriatico Meridionale

IDO 00895193

Motori:  2x285 HP Caterpillar --

Reftting completo nel 2019 Verniciatura delle murate e sovrastruttura e Awl Grip Carena portata a zero con trattamento antiosmosi Coperta in teak nuov

Lunghezza:  14,22 mt

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Advertising of this vessel in any printed material or the internet is not permitted without previous consent from this office. Vessel particulars are

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Electrostal History and Art Museum

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Electrostal History and Art Museum - All You Need to Know BEFORE You Go (2024)

• (0.19 mi) Elektrostal Hotel
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• (1.27 mi) Mini Hotel Banifatsiy
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40 facts about elektrostal.

Written by Lanette Mayes

Modified & Updated: 02 Mar 2024

Reviewed by Jessica Corbett

Elektrostal is a vibrant city located in the Moscow Oblast region of Russia. With a rich history, stunning architecture, and a thriving community, Elektrostal is a city that has much to offer. Whether you are a history buff, nature enthusiast, or simply curious about different cultures, Elektrostal is sure to captivate you.

This article will provide you with 40 fascinating facts about Elektrostal, giving you a better understanding of why this city is worth exploring. From its origins as an industrial hub to its modern-day charm, we will delve into the various aspects that make Elektrostal a unique and must-visit destination.

So, join us as we uncover the hidden treasures of Elektrostal and discover what makes this city a true gem in the heart of Russia.

Key Takeaways:

• Elektrostal, known as the “Motor City of Russia,” is a vibrant and growing city with a rich industrial history, offering diverse cultural experiences and a strong commitment to environmental sustainability.
• With its convenient location near Moscow, Elektrostal provides a picturesque landscape, vibrant nightlife, and a range of recreational activities, making it an ideal destination for residents and visitors alike.

Known as the “Motor City of Russia.”

Elektrostal, a city located in the Moscow Oblast region of Russia, earned the nickname “Motor City” due to its significant involvement in the automotive industry.

Home to the Elektrostal Metallurgical Plant.

Elektrostal is renowned for its metallurgical plant, which has been producing high-quality steel and alloys since its establishment in 1916.

Boasts a rich industrial heritage.

Elektrostal has a long history of industrial development, contributing to the growth and progress of the region.

Founded in 1916.

The city of Elektrostal was founded in 1916 as a result of the construction of the Elektrostal Metallurgical Plant.

Located approximately 50 kilometers east of Moscow.

Elektrostal is situated in close proximity to the Russian capital, making it easily accessible for both residents and visitors.

Known for its vibrant cultural scene.

Elektrostal is home to several cultural institutions, including museums, theaters, and art galleries that showcase the city’s rich artistic heritage.

A popular destination for nature lovers.

Surrounded by picturesque landscapes and forests, Elektrostal offers ample opportunities for outdoor activities such as hiking, camping, and birdwatching.

Hosts the annual Elektrostal City Day celebrations.

Every year, Elektrostal organizes festive events and activities to celebrate its founding, bringing together residents and visitors in a spirit of unity and joy.

Has a population of approximately 160,000 people.

Elektrostal is home to a diverse and vibrant community of around 160,000 residents, contributing to its dynamic atmosphere.

Boasts excellent education facilities.

The city is known for its well-established educational institutions, providing quality education to students of all ages.

A center for scientific research and innovation.

Elektrostal serves as an important hub for scientific research, particularly in the fields of metallurgy, materials science, and engineering.

Surrounded by picturesque lakes.

The city is blessed with numerous beautiful lakes, offering scenic views and recreational opportunities for locals and visitors alike.

Well-connected transportation system.

Elektrostal benefits from an efficient transportation network, including highways, railways, and public transportation options, ensuring convenient travel within and beyond the city.

Famous for its traditional Russian cuisine.

Food enthusiasts can indulge in authentic Russian dishes at numerous restaurants and cafes scattered throughout Elektrostal.

Home to notable architectural landmarks.

Elektrostal boasts impressive architecture, including the Church of the Transfiguration of the Lord and the Elektrostal Palace of Culture.

Offers a wide range of recreational facilities.

Residents and visitors can enjoy various recreational activities, such as sports complexes, swimming pools, and fitness centers, enhancing the overall quality of life.

Provides a high standard of healthcare.

Elektrostal is equipped with modern medical facilities, ensuring residents have access to quality healthcare services.

Home to the Elektrostal History Museum.

The Elektrostal History Museum showcases the city’s fascinating past through exhibitions and displays.

A hub for sports enthusiasts.

Elektrostal is passionate about sports, with numerous stadiums, arenas, and sports clubs offering opportunities for athletes and spectators.

Celebrates diverse cultural festivals.

Throughout the year, Elektrostal hosts a variety of cultural festivals, celebrating different ethnicities, traditions, and art forms.

Electric power played a significant role in its early development.

Elektrostal owes its name and initial growth to the establishment of electric power stations and the utilization of electricity in the industrial sector.

Boasts a thriving economy.

The city’s strong industrial base, coupled with its strategic location near Moscow, has contributed to Elektrostal’s prosperous economic status.

Houses the Elektrostal Drama Theater.

The Elektrostal Drama Theater is a cultural centerpiece, attracting theater enthusiasts from far and wide.

Popular destination for winter sports.

Elektrostal’s proximity to ski resorts and winter sport facilities makes it a favorite destination for skiing, snowboarding, and other winter activities.

Promotes environmental sustainability.

Elektrostal prioritizes environmental protection and sustainability, implementing initiatives to reduce pollution and preserve natural resources.

Home to renowned educational institutions.

Elektrostal is known for its prestigious schools and universities, offering a wide range of academic programs to students.

Committed to cultural preservation.

The city values its cultural heritage and takes active steps to preserve and promote traditional customs, crafts, and arts.

Hosts an annual International Film Festival.

The Elektrostal International Film Festival attracts filmmakers and cinema enthusiasts from around the world, showcasing a diverse range of films.

Encourages entrepreneurship and innovation.

Elektrostal supports aspiring entrepreneurs and fosters a culture of innovation, providing opportunities for startups and business development.

Offers a range of housing options.

Elektrostal provides diverse housing options, including apartments, houses, and residential complexes, catering to different lifestyles and budgets.

Home to notable sports teams.

Elektrostal is proud of its sports legacy, with several successful sports teams competing at regional and national levels.

Boasts a vibrant nightlife scene.

Residents and visitors can enjoy a lively nightlife in Elektrostal, with numerous bars, clubs, and entertainment venues.

Promotes cultural exchange and international relations.

Elektrostal actively engages in international partnerships, cultural exchanges, and diplomatic collaborations to foster global connections.

Surrounded by beautiful nature reserves.

Nearby nature reserves, such as the Barybino Forest and Luchinskoye Lake, offer opportunities for nature enthusiasts to explore and appreciate the region’s biodiversity.

Commemorates historical events.

The city pays tribute to significant historical events through memorials, monuments, and exhibitions, ensuring the preservation of collective memory.

Promotes sports and youth development.

Elektrostal invests in sports infrastructure and programs to encourage youth participation, health, and physical fitness.

Hosts annual cultural and artistic festivals.

Throughout the year, Elektrostal celebrates its cultural diversity through festivals dedicated to music, dance, art, and theater.

Provides a picturesque landscape for photography enthusiasts.

The city’s scenic beauty, architectural landmarks, and natural surroundings make it a paradise for photographers.

Connects to Moscow via a direct train line.

The convenient train connection between Elektrostal and Moscow makes commuting between the two cities effortless.

A city with a bright future.

Elektrostal continues to grow and develop, aiming to become a model city in terms of infrastructure, sustainability, and quality of life for its residents.

In conclusion, Elektrostal is a fascinating city with a rich history and a vibrant present. From its origins as a center of steel production to its modern-day status as a hub for education and industry, Elektrostal has plenty to offer both residents and visitors. With its beautiful parks, cultural attractions, and proximity to Moscow, there is no shortage of things to see and do in this dynamic city. Whether you’re interested in exploring its historical landmarks, enjoying outdoor activities, or immersing yourself in the local culture, Elektrostal has something for everyone. So, next time you find yourself in the Moscow region, don’t miss the opportunity to discover the hidden gems of Elektrostal.

Q: What is the population of Elektrostal?

A: As of the latest data, the population of Elektrostal is approximately XXXX.

Q: How far is Elektrostal from Moscow?

A: Elektrostal is located approximately XX kilometers away from Moscow.

Q: Are there any famous landmarks in Elektrostal?

A: Yes, Elektrostal is home to several notable landmarks, including XXXX and XXXX.

Q: What industries are prominent in Elektrostal?

A: Elektrostal is known for its steel production industry and is also a center for engineering and manufacturing.

Q: Are there any universities or educational institutions in Elektrostal?

A: Yes, Elektrostal is home to XXXX University and several other educational institutions.

Q: What are some popular outdoor activities in Elektrostal?

A: Elektrostal offers several outdoor activities, such as hiking, cycling, and picnicking in its beautiful parks.

Q: Is Elektrostal well-connected in terms of transportation?

A: Yes, Elektrostal has good transportation links, including trains and buses, making it easily accessible from nearby cities.

Q: Are there any annual events or festivals in Elektrostal?

A: Yes, Elektrostal hosts various events and festivals throughout the year, including XXXX and XXXX.

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Things to Do in Elektrostal. 1. Electrostal History and Art Museum. 2. Statue of Lenin. 3. Park of Culture and Leisure. 4. Museum and Exhibition Center.

Most Recent: Reviews ordered by most recent publish date in descending order. Detailed Reviews: Reviews ordered by recency and descriptiveness of user-identified themes such as wait time, length of visit, general tips, and location information.

Lanette Mayes. Elektrostal is a vibrant city located in the Moscow Oblast region of Russia. With a rich history, stunning architecture, and a thriving community, Elektrostal is a city that has much to offer. Whether you are a history buff, nature enthusiast, or simply curious about different cultures, Elektrostal is sure to captivate you.

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