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Best Wind Generators for Sailboats of 2024
Sailing gives us freedom: we don’t need a motor or fuel to travel the oceans. That freedom isn’t absolute. Most sailors still rely on electricity for lighting, refrigeration, small appliances, and to run the electronics that we rely on for navigation and safety. That means we need batteries, and if we rely on batteries, we have to charge the batteries. Since we’re already using the wind to move us from place to place, it makes sense to use that same energy source to keep our batteries charged up and ready for action. Wind generators are increasingly becoming a standard feature on cruising sailboats, and a wide range of products have emerged to meet the demand. This review of the best wind generators for sailboats will help you select the product that best meets your needs.
For more of our top sailing gear recommendations, check out the Best Solar Panels for Sailboats .
Quick Answer - The Best Wind Generators for Sailboats
- AutoMaxx DB-400 View at Amazon
- Primus Wind Power Air-X Marine View at Amazon
- Nature Power 2000W View at Amazon
- Missouri General Freedom II View at Amazon
- Nature Power 400W View at Amazon
Comparison Table - Best Wind Generator for Sailboats
Name | Blades | Optimal Power AT | Voltage | Rated Output | Price | Rating | Review |
---|---|---|---|---|---|---|---|
3 | 28 MPH | 12V | 400 Watts | 4.0 | $ | ||
3 | 28 MPH | Adjustable Output | 400 Watts | $$$ | 4.0 | ||
3 | 45 MPH | 24V | 2000 Watts | $$$$ | 4.0 | ||
11 | Not Specified | 12/24V | 2000 Watts | $$ | 4.0 | ||
3 | 27 MPH | 12V | 400 Watts | $ | 4.0 | ||
Name | Blades | Optimal Power AT | Voltage | Rated Output | Price | Rating | Review |
Reviews - The Best Sailboat Wind Generator
Automaxx db-400.
- Optimal Power AT : 28 MPH
- Rated Output : 400 Watts
- Voltage : 12V
- Minimum Wind Speed : 6.7 MPH
- Maximum Wind Speed : 112 MPH
- Blade Diameter : 48”
- Automatic Braking Controls Your Speed In High Wind
- Built-In Charge Controller And Overcharge Protection
- Maximum Power Point Tracking Gets The Most Power From Any Wind
BEST BUDGET WIND GENERATOR
If you want to try out wind power without spending a fortune and you’re looking for a basic, versatile device suitable for use on land or water, the Automaxx DB-400 is what you need. The durable polypropylene and fiberglass construction of this affordable wind generator resists corrosion and all parts are protected from both water and UV radiation.
Some reviewers complain that these units fail to spin at the advertised cut-in speed and generated less power than expected, but many others reported performance consistent with expectations. It’s difficult to say whether these deficiencies are caused by installation issues, inconsistent products, or excessive expectations. It’s always good to test your unit on arrival and assure that it’s doing what it needs to do!
As with all units listed here, you’ll need a mounting pole for this generator, but other than that it’s ready to install: the charge controller is built-in and you can wire it to your battery pack and forget about it!
Primus Wind Power Air-X Marine
- Weight : 13 lb.
- Voltage : Adjustable Output
- Minimum Wind Speed : 8 MPH
- Maximum Wind Speed : 110 MPH
- Blade Diameter : 46"
- Easy Installation: Wire Directly To Battery Bank
- Auto-Brake Regulator Slows Blades When Battery Is Charged
- Built-In Charge Controller
- Marine-Specific Design And Materials
BEST OVERALL SMALL WIND GENERATOR
The Air-X Marine is the Rolls-Royce of small wind turbines. It’s made entirely in Colorado, and the relatively high price is reflected in the features and overall quality of the unit. It costs three times as much as an entry-level unit with the same output rating, but you get what you pay for.
The unit squeezes its mechanical and electrical components into a tiny ultralight package that is ideal for higher mounts and requires much less effort to secure than heavier bulkier units. You get a sophisticated built-in charge controller with external indicators to tell you when you are charging and when your batteries are full, and the unit is fully use-ready. Just wire it to your battery bank and you’re ready to charge.
This unit is one of the most popular sailing wind generators on the market for good reasons. It’s quiet, efficient, and gets the job done with no extra effort and very little maintenance.
Nature Power 2000W
- Weight : 38 lb.
- Optimal Power AT : 45 MPH
- Rated Output : 2000 Watts
- Voltage : 24V
- Blade Diameter : 70”
- External Controller With LCD Output Display
- Industrial-Strength Aluminum Body With Marine-Grade Coating Means This Generator Will Last Your For Years To Come
- Electromagnetic Brake System For Overcharge Control
- Low-Noise Carbon Fiber Blades
BEST OVERALL LARGE WIND GENERATOR
This is the big boy: a full-on 2000 watt marine wind turbine, ready to install and power up some serious juice to feed those hungry batteries. The unit is designed to be effectively maintenance-free, with a coated cast aluminum body and carbon fiber blades engineered for quiet operation. There’s an external charge controller with an LCD output display to let you know what you’re generating and what your charge status is. Electromagnetic braking prevents potential damage from high winds and overcharging.
You’ll need 45 knots of wind to generate the full 2000 watts, but even at lower speeds, you’ll be putting out enough power to keep your batteries topped up. Paired with a solar array, this wind generator will give you all you need for complete energy independence!
Missouri General Freedom II
- Weight : 59 lb.
- Blades : 11
- Optimal Power AT : Not Specified
- Voltage : 12/24V
- Minimum Wind Speed : 6 MPH
- Maximum Wind Speed : 125 MPH
- Blade Diameter : 62.5"
- Rust-Proof Galvanized Components With Zinc-Plated Hub Make This Wind Generator Almost Indestructible
- 28-Magnet Generator For Maximum Power
- Aerodynamically Tapered Carbon Fiber Blades
BEST POWER-TO-PRICE RATIO
If you’re looking to step up to a higher-output wind system without spending a fortune, Missouri General delivers with the Freedom II. This unit adopts a radically different design philosophy, featuring 11 carbon fiber blades to get maximum power out of wind in the lower end of the charging range. The Freedom II uses a permanent-magnet generator and several other unique design features to achieve high efficiency and durability.
This unit is quite inexpensive on a price-for-power scale, but it does not arrive installation-ready and you’ll have to add a charge controller, a dump load to protect your battery from overcharging, and cables. You’ll probably also need to have an electrician install the unit to assure that those components are correctly connected and working as they should!
Nature Power 400W
- Optimal Power AT : 27 MPH
- Minimum Wind Speed : 7 MPH
- Marine Grade Coating And Sealing For Durability
- Low-Noise Carbon Composite Blades
- Smart Charge Controller For Maximum Output
BEST LIGHTWEIGHT BUDGET WIND GENERATOR
Nature Power turbines are designed specifically for marine use and offer a durable, corrosion-resistant cast aluminum body and whisper-quiet carbon fiber blades. There’s a specialized electromagnetic braking system designed to keep the unit within its electrical and mechanical limits without the wear and tear associated with mechanical braking and a smart controller that adjusts the voltage-to-current ratio for peak charging efficiency. The low weight of the unit makes it ideal for mast installations or other high mounts. As with any relatively low-output wind generator, you can’t expect to rely on this unit for all of your charging needs. It’s very well suited to use in conjunction with solar panels: on hot, still days the sun does the work, and when the weather turns sour or you’re out at sea, the wind will kick in with its share. This is an excellent choice for the wind component of a combined solar/wind generation system.
THINGS TO CONSIDER WHEN BUYING A WIND GENERATOR
It’s important to recognize that while wind power is useful, it isn’t magic. Most modern wind generators will begin generating power in quite light winds, but the output may be minimal and you’ll need sustained higher winds to deliver the charge you want.
If you’re moving downwind, you may get less charge than you expect: if the wind is at 20 knots and your downwind speed is 8 knots, your wind generator will be effectively receiving 12 knots, not 20! Many sailors find that a wind generator combined with a solar array is the most effective power solution, and some add a towed generator that generates power when dragged through the water as an additional option. The power mix that best suits you is something you’ll have to decide, but there’s a good chance that wind will be part of it!
Read through these things to consider to get a better sense of how to choose which wind generator is right for you so that you can get back on the water and enjoy the wind in your hair without worrying about losing electricity unexpectedly!
MANAGE YOUR EXPECTATIONS
A common complaint about wind generators is that they don’t deliver as much power as expected. This is more often a problem of simple physics than an issue with defective units or improper installation. The power delivered by wind increases with the cube of the wind speed, meaning that (keeping things very simple), a 20-knot wind delivers 8 times the power of a 10-knot wind. If you expect a unit that’s rated to deliver 400 watts of power at 28 knots of speed to deliver 200 watts at 14 knots, you will be disappointed, and it won’t be the unit’s fault!
While most units will cut in (start working) at 6 to 7 knots, don’t expect to generate measurable power until you reach 10-12 knots. Remember that if you’re on a downwind heading the apparent wind – the wind speed actually experienced by your generator – will be wind velocity minus hull speed. And remember that most anchorages were chosen because they are protected from the wind.
All in all, you are likely to find yourself generating less power than you expected. That doesn’t mean the installation is useless: it will contribute, it will charge your batteries while you sail, and if used in conjunction with solar panels, it can meet your charging needs. It’s a useful tool, not a magic bullet!
INSTALLATION
Your choice of generator will be affected by your installation options. Some sailors opt for masthead or mizzenmast installations, which can receive up to 50% more wind than lower placements but which are less accessible for maintenance and involve longer cable runs with more resistance. If you’re looking at such an installation, you’ll want a lightweight, low-maintenance unit. Most sailors prefer installation above the cockpit or transom, high enough to keep blades away from people and equipment but low enough for easy access and relatively short cable runs.
WATCH OUT FOR HIGH WINDS
Manufacturers claim very high maximum wind tolerances, but these are often based on wind-tunnel tests using controlled wind from a single direction. Turbulence can increase the burden on the device, and if you’re expecting wind in excess of 50 knots, taking down the generator is a wise precaution.
THE NOISE FACTOR
Noise and vibration were once huge problems with wind generators, with users reporting everything from a repetitive whump to a screaming howl. Modern construction and improved blade design have made turbines much quieter, but noise and vibration can still be issues. It’s great to generate power while you sleep, but not so great to have your generator keeping you awake! You may wish to check out some working installations to get a sense of how much noise is involved.
If you’re wondering whether to go with wind or solar, All At Sea and eMarine have useful articles weighing in on that eternal debate. For more information on Wind Generators, try these articles from Yacht Unlimited and Sail .
FEATURES EXPLAINED
About those numbers.
Rated Output is the maximum number of watts a unit can put out under ideal conditions. These numbers are based on wind tunnel tests and are rarely if ever achieved in the field.
Minimum (or “cut-in”) Wind Speed is the wind speed required to turn the blades. Very little power will be produced at this level.
Maximum Power is achieved at a specific target wind speed. Most units are designed to begin braking or “cutting out” power at speeds above this level.
Blade Diameter is the end-to-end distance between blade tips. You’ll need to consider this distance when mounting the unit to keep the blades well clear of any obstructions.
Voltage is the unit’s output voltage, which needs to match the voltage of your battery array.
Maximum Wind Speed is the highest wind the unit can survive. This may be substantially reduced by turbulence!
SOME COMMON FEATURES
Charge Controllers are devices that regulate the output of your generator to maximize the charging of your battery. Some units have built-in controllers with different levels of sophistication, and others do not.
Braking may be mechanical or electromagnetic and is used to assure that the unit’s rotation will not exceed its mechanical or electrical limits. Electromagnetic braking is claimed by some to produce less wear and tear.
Tracking Systems keep the blades facing the wind and keep the unit from spinning on its mount axis, which will twist the cable and damage the installation.
Blades may be fiberglass or carbon fiber, with more expensive units usually using carbon fiber. Many blades are designed to flex and shed wind if wind velocity exceeds design limits.
Corrosion Resistance is achieved by using a variety of coatings and materials. Marine environments place an aggressive burden on materials and both exterior materials and sealing are very important to keep units working.
A Dump Load is a device that diverts excess power to resistors that radiate it as heat, protecting batteries from overcharging.
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Best Marine Wind Turbine Generators For Boats
Unless you are happy burning endless amounts of fuel, a marine wind turbine is an essential item fr an offshore cruising sailboat. In this article, we will be taking a look at some of the best wind generators for your boat.
Today’s cruisers carry so much electrical equipment that wind turbines, solar PV arrays, and hydro-generators are becoming more and more common. The marine wind turbine has been around for several decades now and has gradually been refined to give a much higher degree of efficiency. Better alternators, CAD-designed blades, life-sealed bearings, and smart charge controllers make the latest devices more reliable, quieter, and safer.
Things To Consider When Shopping For a Marine Wind Generator
Horizontal axis vs. vertical axis wind turbine.
The majority of marine wind turbines are horizontal axis devices, either upwind or downwind driven. These are powerful and, as such, need speed and/or charge output limiters, or they can burn out the batteries and self-destruct in storm-force winds. Vertical axis turbines are more suited to trickle charging – usually connected to one or two batteries up to 200Ah capacity. The blade design means they are unidirectional and thus have no need for a bulky tail fin to point them into the wind. They are also considerably quieter than most horizontal turbines and much easier to mount and install.
What Blade Design Should Your Wind Generator Have?
Modern turbines usually sport a one-piece, cast aluminum body and, commonly, three aerodynamically designed plastic/composite blades. One of the first of these models, the original Air-X, worked exceptionally well, particularly in high winds. However, it was so noisy that neighboring boats frequently complained, leaving the owner the option of turning it off or moving well away from other boats. Since then, CAD-inspired blade design has significantly helped to reduce ambient noise levels, although none could be termed silent.
Once your battery bank is fully charged, additional energy from the turbine needs to be dissipated, or the turbine stopped. Low power vertical-axis models don’t usually produce enough to warrant fitting a regulator, but the more powerful models all need some form of charge limiter to prevent overcharging. The simplest form of regulation is to switch it off when no further charge is needed. If you electrically disconnect the turbine, however, it can either damage the alternator diodes or carry on spinning at an even higher speed, so most are electrically ‘braked’ by shorting out their output wires, and a high-current switch is usually provided for this action.
If you leave a turbine running unattended, you’ll need an automatic regulator, and there are two systems commonly available. The first lets the turbine continue to spin and produce power, diverting any that isn’t needed into ‘dump’ resistors to burn off the excess as heat. While effective, it is pretty rudimentary, and you have to be careful where you mount the bulky resistors, which can get quite hot. Alternatively, some use this unwanted charge to pre-heat the hot water tank via an immersed element. Other turbines incorporate ‘pitch control’, comprising feathering blades that either flatten out or turn edge into the wind to regulate turning speed at high wind speeds.
Charge Controllers
A variety of automatic charge controllers are available, some more sophisticated than others, and you don’t necessarily need to use one from the same manufacturer unless it specifically states that you must. A basic model has a voltage-sensitive on/off switch that will trigger at a pre-set threshold battery voltage. The more useful controllers have a built-in display for monitoring turbine output and battery condition. Some can also accept and distribute charge from other sources, such as solar or hydro generation.
>>Also Read: Best Portable Boat Generators
Here Are Some Of The Best Best Marine Wind Turbine Generators For Sailboats
Auecoor solar wind hybrid system – best marine wind turbine generator on amazon.
The Auecoor Solar Wind Hybrid System is the best system to hook your boat/sailboat with. It is a hybrid system that utilizes both solar and wind power generation. This system is highly efficient, it is designed to withstand heavy wind loads, and it is ready to install on a boat/sailboat. They also produce many models to serve your needs, from 500 Watts all the way up to 2000 Watts in optimal weather conditions.
All models come with a 400-Watt wind turbine generator, and then you can add as many 120-Watt high-conversion, waterproof and flexible solar panels as you need. This unit is also pretty easy to install. The solar panels are easy to transport, and they come with pre-drilled holes for easy installation. This is my personal favorite kind of setup and the one that I believe is the best for any serious boater. It provides 2 renewable sources of power that guarantee that whether you are making a passage or liveaboard in a nice beach somewhere, you will have dependable power as if you were living connected to the grid.
Air Breeze 200
Although the latest generation Air Breeze, made by Primus Windpower, provides an increased charge output, it is also quieter and should apparently outlast its predecessors. Its low start-up speed (4.2kn) means that, on average, it should be able to produce more energy than some higher-rated turbines over long periods of low-to-moderate wind speeds. Though it only has a maximum output of 200W, its output has been optimized to provide a more constant charge in typical northern European and Mediterranean wind conditions. The new Air Breeze weighs less than 6kg and has an integral electronic charge controller and over-speed regulator, rendering bulky dump resistors unnecessary and making installation considerably quicker and easier.
Leading Edge LE-300 or LE-450
A UK company, Leading Edge supplies wind turbines for both marine and terrestrial installation. The LE-300 and LE-450 are available in 12V, 24V, and 48V versions and are remarkably light, making them ideal for sailing yachts. The output is DC via two wires, and a run/stop switch is supplied that breaks the turbine by shorting the output. The units can also be supplied with charge controllers, a dump load style regulator that allows you to leave the turbine on 24/7 without the batteries overcharging. The three-bladed LE-300 is very light (6kg) and one of the quietest of the three-bladed models. However, its output is poor for a horizontal-axis turbine, although it starts spinning in the gentlest breeze. The five-bladed LE-450 is more powerful (105W at 15-knots) while remaining quiet and stable. Another great feature of this wind turbine is that it is the quietest marine wind generator tested.
Rutland 1200
The latest in the Rutland wind turbine line up, the 1200, is Marlec’s answer to the third generation three-blade, permanent magnet turbine models. More powerful than the 914i, it features a ‘Tri-namic’ blade design, which is said to provide a low start-up speed, very quiet running, and more power towards the top end of the wind scale. With a claimed peak production of 483W (that’s 35.5A at 12V) in 29 knots of wind, the 1200 can also supply a very useful 40W of power in just 10 knots of wind – a more realistic average in most waters.
The 1200’s charge controller has dual outputs for two separate battery banks and can accept up to a 20A solar PV supply. It reduces the turbine speed automatically after winds reach 30 knots, regulating the charge without using dump resistors. It also has an integral start/stop switch and can support a remote display, which connects to the controller via a simple Ethernet cable.
Eco-Worthy Wind Solar Power Kit
What can I say? I just love a good wind-solar hybrid power generator. With this kind of setup, you won’t have any problem charging a 12V or 24V battery bank with this hybrid system throughout the day, in any weather condition. The Eco-Worthy Wind Solar Power Hybrid generator can guarantee enough power for you to remain comfortable on your boat and operate any appliance you need and enjoy your time on the boat. You can purchase any model that fits our needs starting from 400 Watts all the way up to 1,400 Watts. However, always buy a generator that has a higher power output than you think you will need because you almost always won’t be in optimal climate conditions.
The blades on this German-built device are very steeply pitched towards the hub, resulting in an early start-up in lighter airs, and they also incorporate tiny fins along their length, said to quieten them at high speed. The blades have a kinetic rotor pitch control system designed to feather them in very high winds, not unlike the large terrestrial wind turbines. With a charge controller in the circuit, the turbine can therefore be left spinning in all weathers without worry. The output is two-wire 12V or 24V DC, so it could, in theory, be directly connected to a battery bank.
It can also be used with a simple short-circuit stop switch, which will slow it down enough to be tied off. The Superwind 350 can also be supplied with a 40A SCR Marine charge controller, which has two independent, diode-isolated outputs for start and service battery banks and dissipates unwanted energy via two large, wire-wound dump resistors. Nominal power is 350W at 25 knots.
Silentwind 400 Wind Generator
As fitted to all boats in the Volvo Ocean Race and featuring ‘Silent Power Blades’ – hand-laminated carbon blades, successfully tested at hurricane speeds – the latest Silentwind 400+ has improved wind tracking and earlier start-up than its predecessor, the 400. Featuring aerodynamics combined with a three-phase Neodymium-Iron-Boron permanent magnet generator, the 400+ is said to have a start-up speed of only 4.3 knots and a peak output of 420W at 30 percent less rotation speed than other 400W generators. 12V, 24V, and 48V models are available.
The Silentwind has a 3-wire AC output, which connects directly to the matching hybrid multi-stage charge controller that enables trickle charging and the connection of up to 20A of solar PV power. An adjustable boost function increases performance and optimizes the power yield, while the LCD displays all the important charge information. When the batteries are fully charged, the turbine automatically stops or switches to trickle charge mode with a significant reduction in rotation speed. It can also be stopped (braked) manually with the built-in switch on the controller.
Rutland 504 Wind Marine Generator
The Rutland 504 is a small and lightweight (just 3.5kg) mini-horizontal turbine from the UK off-grid power specialist, Marlec. The earlier model (503) has proven to be extremely popular over the years, in both the small leisure craft market and in commercial applications such as remote street lighting and signage, buoy lights, ATON power, etc., and the 504 should prove equally so. Like its predecessor, it is very compact, and its blades are ‘encapsulated’ – i.e., they have a protective ring around them to prevent limbs and clothing from getting caught up in the blades. Its output is better than that of the vertical-axis turbines but nowhere near the more powerful generators listed above. It is, however, notably quieter.
Typical output is around 15 knots of wind is 12W (1A @ 12V), doubling to 24W/2A at 20 knots. It also has a lower start-up speed than the vertical turbines and, although it takes around 10 knots of wind to provide any useful charge, its low-friction alternator compensates for the gusts by ‘smoothing out’ its output. The 504 does require a charge controller if it is to be left unattended.
Leading Edge Vertical Wind Turbine
The LE-V50 and V150 vertical axis turbines are compact, lightweight, and virtually silent. The V50 measures 270mm dia x 456mm high and is intended for trickle-charging batteries or for running low-power devices. Available in 12V, 24V, or 48V versions, it has a nominal output of 12W but a peak of 70W. In typical waters, this results in an average charge of 0.5-1.0A @ 12Vdc in a fresh breeze. The bigger V150 model has a peak output of 200W but a more typical rating of 24W in wind speeds of 15 knots – double that of the V50.
Leading Edge wind turbines were originally designed to generate power for industrial data monitoring equipment in very remote areas where there is no other power source; these often supplement solar PV arrays in an off-grid sailing situation.
>>Also Read: How to Charge a Sailboat Battery
Final Thoughts
There you have it; these are the best Best Marine Wind Turbine Generators for your boat or sailboat. Whether you are boating/sailing during your holidays or liveaboard full-time, a reliable power source is necessary. It will always provide you with the necessary power to operate your essential electronics, and depending on the power output you go for, it can fill up your batteries without an issue. Remember that when you are out in the water, it will be near impossible that there won’t be enough wind for a marine wind turbine to generate power, so you will rarely be without power. However, that’s why I always sail with both a wind generator and solar panels on board.
Peter is the editor of Better Sailing. He has sailed for countless hours and has maintained his own boats and sailboats for years. After years of trial and error, he decided to start this website to share the knowledge.
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Product Description
The marine industry’s highest rated wind generator.
MarineKinetix MK4+Wind Generator, including Controller - For Lead Acid, AGM, Gel and Lithium Batteries.
The marine wind generator with a 100% satisfaction guarantee, and the industry's best 3-year limited warranty.
Double click on the large picture above to scroll through scores of pictures of fellow bluewater cruisers worldwide relying on power from their MarineKinetix wind generator. See a recent blog from a seasoned bluewater cruiser and Salty Dawg Rally organizer who solved his large energy demands using a combination green energy, including an MK4+ wind generator here .
The MarineKinetix Wind Turbine has become one of the most popular marine wind generators available due to its advanced technology, superior output, and super-quiet design. The MarineKinetix is now considered to be the benchmark among serious cruisers. With a 30% to 50% larger swept area than the most popular marine wind generators, it is simply capable of intercepting more of the available windstream, and capturing more power. Its sophisticated charge controller displays all the data, including Amps, Watts and Volts, and assures that the power makes it safely and efficiently into your battery bank through a 2-stage smart charging process. No need to buy extra meters , rectifiers, stop switches, or load diverters. These are integrated into our smart controller. Just add your mounting pole and the wiring to your batteries, and you are ready to start producing green energy.
We are celebrating our 12th year of serial production, and our 8th year producing our latest design, the MK4+ Marine Wind Generator. The MK4+ replaced the popular MarineKinetix MK450.
The MK4+ includes the following upgrades:
- The Wind Generator body is smaller and even lighter than the original design. This is accomplished with a shorter, but more upright tail, with a greater surface area, and lower polar moment, for faster, and truer wind-tracking. This lowers yaw error and improves performance in shifting winds.
- Upgraded asymmetrical pole-shifted rotor with 12 (vs 10) neodymium rare-earth magnets for more power and zero cogging. Bread-loaf magnet design for optimum air gap.
- Upgraded 36-slot stator with premium heavy-gauge copper windings.
- A new and improved anti-corrosion marine grade finish, which starts with a new high-pressure die-cast magnalium body, which is GEOMET zinc-nanocoat pre-treated, then top-coated with a high-quality corrosion-resistant thermoset marine powder coating. No other marine wind generator uses this anti-corrosion process
- New double yaw bearings. Double bearings provide a larger "wheelbase" for the yaw joint, which reduces any free play, which can contribute to vibration and noise.
- Improved silicone o-rings which are totally weather-proof.
- Improved Aero'coustic 20% carbon-fiber filled injection molded blades, which are 18% more rigid than the previous design.
- All new Hybrid Wind/Solar Charge Controller with LCD display - with integrated battery monitor, stop switch, ammeter and watt meter. (no need for expensive monitoring panels).
- Patented 2-Stage PWM Charge Controller - Increases the efficiency of the charge cycle and tops up the batteries quicker and more fully.
- Improved high-precision hub, with tighter blade fastening tolerances, for perfect blade alignment and whisper-quiet operation.
- Improved molded urethane isolator pad, which fits between the pole and the collar. Molded in "cap" allows it to stay put during assembly.
The great performance of the original MK450 remains. The above changes are incremental improvements designed to improve start-up speed, ease assembly, resist corrosion, and improve real-world output. The MK4+ is truly a world-class micro wind generator.
Tired of talking to non-technical vendors that don't understand the nuts-and-bolts of what they are selling? Give our technical rep, Jeff, a call directly at (864) 275-7837 to answer any questions. Read on to see what really matters when considering wind power for your boat.
Why Consider the MarineKinetix Wind System?
The MarineKinetix Wind Turbine System is simply one of the best performing small wind generator system available for marine use. That is quite a boast, considering all the small turbines out there with catchy names, and bigger advertising budgets, but read on to find out why we believe you'll soon agree.
The MarineKinetix MK4+ is a simple to install, hands-off, super-quiet wind-energy production system made especially for the marine environment. This high-output, low start-up-speed system utilizes the best of European wind-science in its design. In addition to its leading-edge high-output dual-bearing 3-phase permanent magnet generator, it also features world-class aerodynamic efficiency with its carbon-filled aero'coustic rotor blades, which have been optimized for high torque, low rotational inertia, and exceptionally quiet output. These features, coupled with the included "hands-off" microprocessor-based charge-controller, and its exceptionally low yaw-error, make for what we think is the best marine wind generator system on the market. See why below.
The MarineKinetix MK4+ wind turbine system is a leap forward in wind turbine science. It makes the intelligent compromise between low-speed start-up and high-speed output, all at a realistic and cost-effective price.
- A complete 400 Watt Wind System (includes generator and controller)
- 1330mm Blade Diameter (1.3M) - Swept Area = 1.39 Meter
- Weighs only 17 lbs., about HALF the weight of certain competitive designs, without compromising performance thanks to a magnalium body, an asymmetrical rotor, and high-energy-density Nd2Fe14B rare-earth magnets
- Lightweight 300g 20% Carbon Fiber Polymer Composite blades
- Available in 12V, 24V and 48V designs
- Compatible with VRLA, Gel, AGM, Lithium, and Lithium Iron Phosphate (LiFePO4)
- Industry Standard Mounting - Mounts to 1.5" Schedule 40 pipe (1,9"OD), or 48-50mm OD tubing
- Double marine thermoset powder-coat finish, over a DACROMET self-healing aluminum-zinc nano coat
- 5.8 knot start-up speed (begins producing power), 6.7 knot cut-in speed (begins charging 12V/24V batteries)
- Aero'coustic 20% Carbon Polymer Blades
- Super-silent - LAeq 35dB at 5M at 10 knots (about the same as a running fridge)
- Direct drive, 3-Phase dual-bearing AC permanent magnet synchronous generator
- Neodymium Iron Boron (Nd2Fe14B) permanent magnet synchronous design
- 12 pole rotor, with bread-loaf magnet profile, and asymmetrical pole-shifted magnet placement, for low cogging torque
- Automatic back-EMF braking at full charge (or 40 knots overspeed protection)
- IU PWM Charge Control Profile with hysteresis braking
- Microprocessor controlled auto set-point for AGM, Gel, VRLA, Flooded, Lithium, and Lithium Iron Phosphate (LiFePO4)
- Requires no diode packs, diverters or external resistive loads
- Over-charge, over-current, and automatic over-speed protection
- Integrated heavy-duty yaw-axis slip-ring, allowing continued >360° limitless rotation
- Simple installation, and user-serviceable components
- Includes micro-processor charge controller with "at-a-glance" LCD charge, voltage, amperage and wattage status
- Fully compatible with existing solar installations (no conflict with other existing charging sources)
- 3-year limited warranty, and 30-day 100% satisfaction guarantee
- Full lifetime tech support by phone or email with purchase
What is included in the Wind Generator kit?
- MK4+ Wind Generator
- Smart Charge Controller with integrated performance monitor and stop switch
- Blades (x3) with SS blade mounting hardware
- Hub, with mounting nut
- Snap-on molded plastic nose cone
- SS Hardware to mount clamping collar to your pole
- Silicone rubber isolator (goes between pole and collar)
- Assembly allen key tools
- Instructions
What accessories are available from Marinebeam?
- 50A Resettable Circuit Breaker
- Pole Mounting Hardware Kit
- 3-Piece Pole Mast
- 10/3 Marine Cable
- Spare Parts
What is the wired Remote Stop Switch Connector option?
While the controller already has an integrated stop switch --accessed with the front panel buttons-- some customers who will have limited access to the controller location may wish to mount a secondary stop switch in a more accesible locaton. So, this option includes a two-pin connector, which attaches to a port on the bottom of the controller, and allows you to run your small-gauge wiring to your on/off toggle switch. The switch and extra wiring are not included, but this is a very low voltage and low current control signal, so a light gauge wire (18-22 AWG) is sufficient. For more sophisticated systems (like off-site telemetry systems) a relay can be used to remotely actuate the brake.
Details About the Unique Marine Kinetix Technology:
Our solution is a systems-approach to wind-energy production on-board. The MK4+ system couples several forward-thinking ideas into one "wind-system" which is easy to install, affordable, and maximizes energy production. We did this by first starting with a low-friction, high-energy-density 3-phase rare-earth magnet rotor design, which came from concepts and materials used in leading-edge green-energy vehicle research. The Neodymium Iron Boron (Nd2Fe14B) permanent magnet rotor uses patented technology licensed from Sumitomo/Hitachi in Japan. This is the same type of PM rotor design used in the AC synchronous motors in the Chevy Volt and other electric vehicles. The rare-earth magnetic rotor is a key to its performance and low noise and vibration. We now utilize an asymmetrical pole-shifted rotor design, which is a advanced method that replaces the heavy mass and cost of older skewed rotor designs, while providing the same advantage of reducing the cogging torque, and improving low speed performance. We coupled this super-efficient machine with a biomimicry-inspired carbon-fiber-filled blade set, which makes for super-quiet performance while improving overall aerodynamic power.
The results are a turbine that outperforms others in start-up speed, output, and noise. While other systems are idle, the MK4+ is generating. While other systems are disturbing the peace, the MK4+ is virtually silent. While other systems are struggling to charge, the MK4+ is topping off.
What are the important factors in wind energy production?
Physics dictates the basic performance of all wind generators. In fact, the power available to any wind generator is a function of the square of the diameter (swept area of the blades) and the cube of the wind speed. The ability of any specific wind generator to the capture wind efficiently depends on the length of its blades (its swept area) and its Tip Speed Ratio. Tip Speed Ratio refers to the speed of the tips relative to the speed of the wind. If the blades spin too fast relative to the wind, they begin to begin to look like a solid disk to the wind, and air piling up in front of the blades effectively blocks the wind behind it. On the other hand, if the blades spin too slowly, much of the wind passes through the gaps between the blades, and the energy is lost forever. So, swept area and blade design are the most important areas which the wind generator manufacturer can control. While the MK4+'s blades are only 8 to 9 inches longer than the typical blade, they sweep as much as 40% more area than the competition. With a nearly perfect tip speed ratio due to the computer-modeled and simulated blade design, and the impedance load-source matching of the controller, the MK4+ has a higher energy capture compared to most other designs.
Because of the cube relationship of wind speed to power production, wind speed is absolutely the most important factor in wind energy . There is no getting around the physics of that. There is 27 times more power in a 15 knot wind than a 5 knot wind. The key takeaway here is that regardless of the technology, you need good wind to get good performance from a wind generator .
What affects the ability to maximize output power capture shown above?
Wind generator power is dependent on wind speed, battery acceptance rate, and applied load , so a variable load and a discharged battery was used to characterize the absolute capture power for the data above. As the wind increases, your wind generator will already be charging full-time, and the battery bank's acceptance-rate, in amps, will decrease as the battery charges and its voltage increases. So, it is important to understand that by the time the wind is blowing 20 knots or more it is likely your batteries will not be capable of accepting the full amount of amps that any generator can provide. This is good. It means that your batteries are reaching a full state-of-charge, and that you have the headroom in power to cover any other loads as they arrive, without further discharging your batteries. At the end of the day, it is best to think of a wind generator as a free-energy variable power source, whose output changes day-to-day depending on the available wind and the presence (or absence) of downstream electrical loads that it requires to generate power.
Read the following pages to learn about the MK4+, and view the video below to see how it performs against a much more expensive wind generator at very low wind speeds.
Our Integrated "Wind-System": Many popular marine wind generators are essentially sold in kit form, with the user left to decide what method of control they need to get the power into their batteries effectively. Alternatively, some turbines have an included charging set-up, but offer what is essentially a simple automotive voltage regulator and a load diverter. This can be a real problem for those wanting to optimize charging and protect their expensive batteries. It is not enough to just generate efficient and effective power at the generator head. It is just as important to get that power effectively into our battery bank, and to regulate that power based on the battery's specific demands for voltage and current throughout its charging cycle. By use of an IU charging profile, the system not only can be more efficient, but can also significantly prolong the life of the batteries by preventing overcharging. Typical load diverter type controllers can only charge your battery to about 80% State-of-Charge (SOC). This partial cycling is particularly bad for your batteries. Combining the Low Start-Up Speed "Tortoise Approach" with the High-Power "Hare Approach": Having seen both real-world performance in various anchorages around the world, as well as published performance testing over the years, we realized that the best approach out there on the "real water" was to apply leading-edge technology to each component of the system to find an intelligent compromise between the Tortoise Approach and the Hare Approach to wind energy production. A small wind-system that is capable of making power in low wind speeds can take advantage of a long day with low wind speeds by putting small amounts of power into the battery consistently throughout the day and night (the Tortoise Approach). On the other hand, a larger system can take advantage of big gusts or heavy wind by making tons of power very quickly (the Hare Approach). The perfect solution for us cruisers would be a two-stage turbine that could be the Tortoise in low wind speeds, or protected anchorages, and could be the Hare in a high-velocity wind environment. By leveraging leading-edge technologies to make incremental efficiency improvements in each of the discrete components of the wind system, we achieved a "sum of the parts" that meets our goals for an ideal marine wind system in-board. We believe it is the best marine wind generator on the market for those sailors wanting a high-quality, hands-off, high-output, and super-quiet system. Our real world data and feedback from our customers backs up that claim. Read on to see how we did it. The Blade Set: We have found that the practical key to consistent production on-board is to start with a large 1.39 meter swept area, and then to apply leading-edge technology to the blade set to extract the maximum amount of energy. Swept area is the most critical aspect of energy capture, and the bigger the swept area, the more power, period. Blade length defines the swept area (Area= π r 2 ), and typically the longer the blades, the stronger and heavier they must be to withstand the exponential increase in torque. The MK4+ solves this issue by using a unique 20% carbon fiber molded blade that is not only long and rigid, but extremely light as well (<300g). This allows us to produce a blade that is up to 9" longer than the competition, but it weighs much less, and sweeps up to 40% more area.
We also focused on the airfoils to get a super-efficient, super-quiet, Aero'coustic blade that gives exceptional power while maintaining low-speed start-up capability. This way the turbine can take advantage of all-day energy production, but also can generate more serious power when the winds pick up. It doesn't do much good to have great potential generating capacity if the blades never turn in the real world. Compare our start-up and output to the competition, and you will see the distinct advantage. Details of the Design: The blade and tail design focuses on several key strategies:
- Low Start-up Speeds
- Very Low Rotational Inertia
- Very Low Noise at Optimum Tip Speeds
- Very Low Yaw Error
- Optimized Tip-Speed Ratio (the ratio of the speed of the tips to the speed of the wind)
While our carbon-fiber reinforced blade set has an extremely low rotational inertia, a strong and lightweight blade is only part of the story. The starting torque on a wind turbine is generated in the blade area closest to the hub, while the power producing torque is produced in the blade area closer to the tips. By use of German-engineered computer modeling and simulation, a variable blade profile was produced that can react quickly in low wind speeds, yet produce high torque and optimal tip-speed ratios at high speeds. The blades are produced in a solid-model-patterned single-cavity injection-molding tool, so that each blade is identical in weight and profile. Using a 20% carbon-fiber filled polymer makes the blade very light, durable, and repeatable. Lightweight blades have a low rotational inertia, which is critical in wind-energy production in the real world. Low rotational inertia allows the blades to accelerate more quickly, which means they can spin faster in lower wind speeds, therefore keeping the tip-speed-ratio (the speed of the tips vs. the speed of the wind) more constant. Operating closer to the optimum tip-speed-ratio during gusts also allows the turbine to improve energy capture from these sudden gusts as well. Another way to increase aerodynamic efficiency --and to reduce noise on an airfoil blade-- is to manipulate and control the lateral airflow over the foil. Of course, some of the best engineering solutions often come from mimicking what is already found in nature. Whales and certain fish have amazing hydrodynamic efficiency and stealth through the use of tubercles , or raised and slotted sections on the leading edges of their fins. Our blades likewise use biomimicry-inspired riblets along the leading edge of the blades, which help the airfoil to create more power at lower speeds, and to operate more efficiently in turbulent air streams. These Aero'coustic riblets, also prevent the air from traveling down the blade edge and "vortexing" off the blade tip contributing to tip noise. The noise you hear from most wind turbines is the sound of wasted energy. How quiet is it... really ? The MK4+ is extremely quiet, and we have never heard one quieter. In fact, it measures only 35dB at 5 meters in 10 knots of wind. At 15 knots, just a flutter, but no tip noise. As the wind builds the flutter noise will increase. Above 30 knots, everything exposed to the wind at that velocity will generate some noise, including the MK4+. To get an idea of how quiet it really is, just watch the video below. Note that the video was shot with a CMOS rolling-shutter camera, so the blades appear to be turning slowly, while in actual fact they are turning at several hundred RPM. Video compliments of customer Hayden Cochran on his Island Packet "Island Spirit":
What is Yaw Error, and why is it so important?
This is quite different from most of the other, and more expensive, 400W generators. The typical marine wind generator charge controller uses 50 year-old technology, which is simply a load-diverter switch, which, upon reaching a set-point, diverts 100% of the energy to a set of resistive elements (essentially heater coils). So, when the battery reaches its dumpload set-point it isn't actually fully-charged, and this type of Partial State of Charge (PSOC) cycling damages the battery by reducing its capacity, and sulfating the battery plates. They can't fully-charge the battery because they have no way to dump only the excess power produced, while continuing to top up the battery. They can only dump all of it. The best scenario would be to have a way to progressively dump power so that the batteries could be fed with only the power that they need at this final stage of the charging process.
The controller is very compact (5-5/8" H x 5-7/8" W x 3-1/4" D), fanless, and is designed to be bulkhead mounted.
It has the following additional features:
(1) Full monitoring capability (Volts, Watts, Amps), no additional battery monitors, shunts, panels, or displays needed (2) Backlit LCD display with clear graphical readout (3) Manual Brake deployment via keypad, so no additional stop switch is required (4) Battery charge level indicator (5) External load control (for managing lighting, etc)
Unlike some other popular marine wind generators which have internal controllers, there are no on-board electronics in the hot and salty elements, and there is no need for additional rectifiers, heat sinks, stop-switches, large resistive loads, or ammeters. It all happens automatically and safely within the charge controller. It even protects from over-charging and under-charging. It is truly a hands-off charging solution.
Maintenance and Warranty: The MK4+ is designed to provide years of trouble-free service out in the elements, and has a 3-year warranty against defects in materials or workmanship. We specified a simple and rugged mechanical set that uses very few parts, is easy to maintain, and will stand up to the rigors of the marine environment. Unlike most single bearing automotive alternator-based designs, our dual low-friction rotor is supported by two low-friction bearings to provide long-life and easy start-up. The unit is easy to disassemble, understand, and maintain. The body is made of a lightweight magnesium and aluminum alloy, which is pre-treated with a zinc-aluminum nano-coat, and then a double marine-grade epoxy powdercoat to resist oxidation and corrosion. The MK4+ is bluewater tested by full-time cruisers, and like all of the Marinebeam products it is backed by the best technical support and warranty in the business. Be sure to look at the various customer installation picture above to see some of our installations around the globe.
Interesting Links
Click here for our Frequently Asked Questions (FAQs) document.
Link to download PDF copy of installation manual (V2.2)
Link to download PDF copy of controller manual (V2.1)
Should you have further questions, feel free to contact us by phone or email. Jeff, our resident MK4+ technician can be reached M-F 9-6PM at (864) 275-7837. Or you can reach him by email at [email protected]
Product Videos
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Great unit with great service.
Posted by Jean on 5th Sep 2024
I had this wind generator running for the past 6 years at the top of my mizzen mast on my sailboat as good and reliable as the first day i put it up there. Sitting at the top of the mizzen mast i needed to install a unit with low maintenance as i can’t easily climb up to the top. Summer, winter this thing is running non stop for the past 6 years without a single issue and performance is very good. I use to have the Air Breeze which i don’ miss at all. If you are looking for a great unit at a great price don’t hesitate you will be very pleased with this wind generator. And as an added bonus you will get outstanding customer services.
Quiet, but needs > 15 knots wind....
Posted by John on 16th Aug 2024
Nice, quiet wind generator but needs at least 15 knots before it produces useful output. This is not a criticism as pretty much all wind generators need this much wind to be useful. The "Very low startup speed" sounds great but in reality all that's happening is that the blades are turning at low wind speeds - there's no power coming from it ? Below that all it does it light the small LED under the body ? The controller is better than some but does not offer "MPPT" charging for the solar input. It's origin is in controlling street lights and that shows in the menus that offer not so useful options to control lights. The only other problem is that either the controller or the generator are electrically noisy. The electrical noise manifests itself as a harsh buzz (on SSB/HF radios) that charges according to wind speed. It can be removed by putting the electrical brake on but then, of course, it produces no power at all! All in all it doesn't make the difference I was hoping for unless you get > 15 knots apparent wind. Plus points are that it is quieter than most, is a very good price and seems well engineered.
MarineKinetix MK4 Wind Generator - Highly recommended!
Posted by David Pollock on 28th Jan 2024
I’ve had my MarineKinetix MK4 Wind Generator for over 10 years and it has performed flawlessly! It is an exceptional product! Produces great power and is super quiet. While I also have solar, in the winter down in the Keys or further south, the daylight hours are reduced. But there is usually a 10+ knot wind. Nothing like waking up in the morning with the batteries fully charged. And quiet - I have had guests on my boat in a mooring field comment on the noise of wind generators on other boats. The MK4 is whisper-quiet, built solid with quality materials and they provide great service! Highly recommended!
Posted by Bob Golembicki on 12th Jun 2023
I replaced our very old two bladed Four Wind mizzen mounted generator this past winter with an MK4+ and are very happy with the output and how quiet and well balanced the new generator is as we’ve been sailing around the Chesapeake Bay this year. We’re running the engine to charge only on very calm days and maybe half as much as we had to with our old generator.
Recommended
sku: WR-10-3G
Round profile 10/3 marine tinned cable.
sku: CB-50A-42
50 amp manual reset circuit breaker.
sku: MK4-MOUNT
Marine wind generator mounting pole hardware kit.
sku: BL-MK-4+
Replacement blade for marinekinetix mk450 or mk4+ wind generator.
Sailboat Wind Generators: The Ultimate Guide 2024
Sailboat wind generators are a way to capture the energy of the wind and use it to charge your batteries and power electronics aboard your vessel.
A large part of the appeal of living on a sailboat, for many people, is being more or less self-sufficient – using the wind for propulsion, and the elements to generate all the power you need.
Solar panels are a wonderful technology, literally magic, but the sun doesn’t shine every day. In fact, of the most popular cruising grounds in the world aren’t even that sunny. It rains three to four days a week in Barbados or Antigua, for example (don’t even get us started on the English Channel).
And what about night sailing – keeping critical loads like autopilots and instruments online after the sun goes down?
A marine wind generator fills in those vital gaps in the energy picture, and eliminates the need to generate or run the engines to keep your electronics online.
In this expert guide we take a deep dive into sailboat wind generators, covering everything you need to know – from how they work through to the very latest technological advances.
With thousands and thousands of miles under the keel, we have lived off-grid using technologies just like this for almost a decade now. We’ve rewired more boats than anyone should ever have to. We’re marine electronics nerds, basically, and specifically very passionate about renewables like wind and solar.
That’s why we couldn’t wait to write about this topic, and why you’ve got a good 4000 words on it! Sorry about that! But feel free to skip and just read the information you’re interested in, we don’t blame you!
So, let’s take a close look at sailboat wind generators, how they work, what makes a good one, the best sailboat wind generators that we think deserve a place on your next nautical expedition.
As an Amazon Associate, we earn from qualifying purchases. We also earn from other affiliate programs. This means we may receive a small commission on products purchased through our links at no extra cost to you.
Table of Contents
The best sailboat wind generators – best budget choice, the best sailboat wind generators – best overall, what is a sailboat wind generator, why install a wind generator on a sailboat, wind generators vs solar power.
- What is a dump load on a marine wind generator ?
- Marine wind generators vs hydro generators
Our top budget choice: Nature Power 500
If you are in the US, the choice for the best budget marine wind generator is easy – it’s this guy , the Nature Power 500, which West Marine have sold for donkey’s years with eternally solid reviews.
It’s a 500-watt turbine that is natively compatible with both 12V and 24VDC systems. It’s made from marine-grade aluminium that’s also coated in a thick, durable coating to help it withstand years at sea.
This wind generator is rated for winds up to 110mph – well into hurricane territory – and it comes as a complete kit including a charge controller using the latest MPPT technology. The controller even has an electronic brake, even though it’s a manual one.
Honestly, this is just a lot of value for the ~$700 they’re asking, and very easy to recommend for the best budget sailboat wind generator.
We don’t massively recommend most of the budget options on Amazon for extended cruising – they’re just not built for the task. But if it’s all your budget will stretch to, something like a Pikasola 400 would be the best bet for a sailboat wind generator under $500.
Readers in the UK or Europe could look at something like a Rutl and 914i . You’ll pay a little more, around £850, but a Rutland is a proper piece of kit – they’re been manufacturing marine wind generators since the 1970’s, long before solar panels were even seen on pleasure yachts.
The 914i will produce about 260 watts in 30 knots of breeze, or 20+ amps into a 12-volt battery. In a hurricane it’ll make over 400 watts.
This is a genuine marine wind turbine built from quality parts and specifically designed for the aggressive saltwater environment. It comes with very few compromises, from the bundled MPPT tracker to its extremely quiet operation.
The charge controller supports a small solar panel as well, which is sort of nice – but we’d highly recommend using a top-quality, stand-alone MPPT charge controller for any solar panels if you can possibly afford it.
If you are in Europe, or can import, we think the Silentwind Pro is probably the best sailboat wind generator you can buy right now. This is with the caveat that while we’ve seen these installed on lots of different yachts, talked to multiple long-term owners, and even handled one out of the box, we’ve never actually owned one.
That’s because they start at about €2,100, which is a considerable sum for a 420w wind generator. But what you do get is an incredibly refined package – one that picks up and starts generating with as little as four knots of breeze, and remains whisper-quiet right up into the high RPMs.
The Silentwind Pro uses hand-laminated carbon blades that are rated to withstand hurricane-speed winds, but that are also highly efficient across the curve. This is definitely one of the most engineered solutions on the market today.
The polished package is rounded out by features like an automatic electronic brake that kicks in if the wind exceeds a certain speed. Cheaper options may have an electronic brake but it generally has to be tripped manually by the crew.
Models without an electronic brake of any kind are frankly dangerous, because you have to lasso them to stop them – which is how the gentleman broke his arm, and wind generator, in the earlier example.
Other than Silent Wind, there are a few slightly cheaper options that are still very good. For readers in the US, one option made locally is the Air Silent X made by Primus Wind Power. We don’t have as much experience with these, but we have met a couple of happy owners and have heard similar things to Silentwind.
Primus claim they have the bestselling wind turbines anywhere in the world; we’re not sure about that given that Marlec / Rutland have been around nearly two decades longer, but either way their site states they’ve sold more than 150,000 wind generators since ’95, into over a hundred countries.
Primus make six different models at different price points that are all potentially worthy of consideration, but the Air X Silent or Air Breeze are both solid choices.
Rutland wind generators also remain easy to recommend across the board, particularly to readers in the UK and Europe, and a premium option would be something like a Rutland 1200 .
At around £1,500, or $1900, the Rutland 1200 can produce up to 480W flat out, and will hit 300W in only 20 knots or so of breeze. It’s a proper marinized unit built to withstand the rigours of life at sea, and that should provide years of low-maintenance service.
A sailboat wind generator, also known as a marine wind turbine or wind charger, is a device for capturing wind energy and turning it into electricity.
Sailboat wind generators typically have 3 or more long, aerodynamic rotor blades attached to a central hub. The blades translate wind energy into rotational force and spin the hub, sometimes at near-supersonic speeds .
The hub is attached to an electrical generator – a lot like the alternator on an engine – that generates electricity as it spins.
A wind turbine is an electrical fan operating in reverse. The fan takes electricity and uses it to spin a motor, attached to a hub and some blades, creating wind.
A wind turbine takes wind energy and uses it to spin a hub attached to generator, creating electricity.
You can actually just spin any DC motor to generate electricity , but it helps a lot if you pick one that generates the flavour of electricity you’re after.
Brushed motors are appropriate for generating DC, whereas a brushless motor is better suited to AC voltage applications.
A handful of marine wind turbines, mostly older ones, do use a brushed motor set up to produce a voltage that can directly charge a 12 volt or 24-volt battery.
Brushed motors are called that because they literally have a core of metal brushes that drags along inside outer, magnetic stator. Those brushes wear out over time and need to be replaced. They’re in something like a starter motor that works intermittently, but putting them in wind generators was always a bad idea.
They’re also noisy – which is a major consideration in a device that is going to run overnight, above your head, while you sleep, every night.
Brushless motors have so many advantages over brushed, from their efficiency to their lifespan to their reduced mechanical noise. As such, most wind generators produce AC electricity and then rectify it to DC at the regulator in order to charge the battery bank.
This means you will normally have three wires leading from the wind generator on your sailboat to the charge controller. It also means you definitely don’t want to connect those wires, carrying AC electric, to your DC battery bank, without passing them through the charge controller first.
Wind generators offer a lot of advantages – notably the ability to work day and night, and in both sunny and stormy weather.
Solar panels are great, but they only work during the day – and on sunny days, at that. They’re also affected a lot by the seasons, because in winter there are both less hours of daylight, and the sun is lower in the sky, its rays have to travel further and they strike the panel at an oblique angle. And, it’s cloudy or rainy nearly every day.
Regardless of season, as we’ve explored earlier in this guide, some of the most popular sailing destinations don’t actually have reliable sunshine – but all of them have reliable wind.
Not so with sailboat wind turbines, which work just as well on sunny days as stormy. They often generate even more power in winter, on days when solar might be producing at 10% or less.
This effect makes wind generators a big enabling technology for grey-weather sailing, from extending your sailing on into the “shoulder season” and benefitting from empty bays and anchorages, to exploring unconventional cruising grounds such as the Scandinavian fjords.
Besides stormy and overcast days, wind generators will keep on producing at night. This is particularly helpful when night sailing with the radar, AIS and full nav suite running, maybe plus an autopilot, and then all your domestic loads like your fridge and freezer. Even if you’re just at anchor, it’s nice to wake up with topped-off batteries every morning.
This doesn’t apply if you have a modern boat with ample battery storage, but when we were just getting started in sailing, we would frequently have half-flat batteries by morning.
Not only does this shorten the life of the bank, it occasionally even meant we struggled to pick up the hook in the morning – which is a bit of a safety hazard. Again, this is mitigated by wind.
None of this is to say that you should ditch solar power for wind. Solar power has many wonderful properties, explored below, and the two technologies actually complement each other very well. If you have a large enough vessel, we fully recommend you try to integrate both into your power plan.
Wind and solar are both very useful technologies to the cruising sailor, each with its own set of advantages and disadvantages. Their pros and cons in fact offset each other and synergise quite nicely, compensating for each other’s weaknesses.
As such, we’d argue it’s less about deciding which is better, and more about figuring out whether you can incorporate both into your power plan somehow.
Nonetheless, let’s have a look at how solar power and wind generators compare and contrast, and some of the pros and cons of each technology.
Advantages of solar power vs wind power
Solar power’s major advantage over wind is that it’s “solid state”. This means it has no moving parts to wear out, and requires almost no maintenance.
In fact, solar panels will generally sit and faithfully do their thing decade after decade with almost zero human interaction. A common standard nowadays is for panels to retain 90% of their producing power after 20 years .
There’s a 10kW solar array in Switzerland that’s been feeding directly into the grid since 1982; it’s over 40 years old and going strong.
Solar panels benefit from wiping down once or twice a year, but other than that, they’re a totally set-and-forget technology.
Many sailing destinations have ample sunshine, with long hours of direct sun throughout the sailing season.
Solar is also cheap and plentiful nowadays, and panels come in all shapes and sizes that can fit almost anywhere on a yacht – including a handful of solar panels you can walk on, although those are not cheap.
Overall, though, solar is much cheaper than wind watt-for-watt. You might pay $0.50 per watt for a good rigid polycrystalline solar panel and charge controller. A wind generator may well run to $2000 for 400w – that’s $5 per watt, up to ten times more expensive. And the wind generator has moving parts that can require replacement.
Another often overlooked advantage of solar panels is that their solid-state nature makes them very safe – there are no moving parts to catch a finger in, or spinning blades that could strike a member of the crew. They just sit and silently do their thing, year after year.
Disadvantages of solar power vs wind power
Solar only works when the sun shines. The sun, as we’ve pointed out earlier, doesn’t always shine. You might be surprised by how cloudy places like the Caribbean can be – some islands have rain up to 50% of the time.
Some popular sailing destinations, like the English Channel, average about two hours of sunshine per day, with rain or overcast skies on 75% of days annually ( no, seriously ).
There’s always night sailing, as well. If you’re night-sailing, you may well have tools like radar and AIS running for safety, plus other loads like an autopilot and anything like fridges and freezers running below.
If you only have solar power, and no wind, you may have to run the engine to make it through the night – or invest in a large battery bank that can keep up until morning.
Marine wind generators are an excellent way to bridge the gap. It can be windy at any time of the day or night, and very often the cloudy or stormy days are the windiest. It’s only sunny during the day, and only some days, so this is a major disadvantage of solar power when compared to wind.
Another disadvantage of solar panels is that they lose power quite dramatically when shaded, and sailboats unfortunately have a lot of tall, shade-casting objects. These include the mast, the boom, the sails and anything like radar or Starlink dishes .
Somewhat paradoxically, solar panels also lose power as they get hot in the sun, meaning the normal, everyday conditions in many exotic destinations can actually reduce their efficiency by double-digit percentages. They are happiest somewhere cold with lots of sun, like on top of a mountain – not in the tropics.
Advantages of wind power over solar power
The wind doesn’t rise and set like the sun – it can blow around the clock. Okay, technically, the sun rising and setting down does change the temperature and create all the wind on earth.
But the wind often continues after the sun goes down. In fact, when you’re on a boat, on the water next to land, the wind usually just reverses at night .
It’s often windy on the water on sunny days because all wind is caused by pressure flowing from high to low, and the main source of those differing areas of pressure is heat from the sun – particularly, say, where the adjacent land and water heat up at different rates.
That’s how wind is made on sunny days. But it’s often windy on non-sunny days, too, because it’s just about air rushing between those areas of high and low pressure, hot and cold air. As such, cold fronts can bring wind too.
This makes wind somewhat more of an always-on technology than solar – especially in the places that sailing boats are found. There is usually wind offshore, and often in the anchorages too as it rolls off the hills . In some parts of the world, such as those affected by the Greek Meltemi , it blows straight 30’s weeks on end.
Overall, sailing boats are just usually found in places with abundant wind energy, so there’s a lot of synergy between sailing boats and wind generators. And we’ve pointed out, many exotic sailing destinations in the world have more wind than sun, and that’s before we get started on sailing somewhere like Scandinavia.
A wind generator has a small footprint compared to a solar panel, although it does need a large exclusion zone around it for safety. Wind generators are sometimes mounted up the mast, but we don’t generally advise putting a large, pendulum-like weight at the end of a 50-foot-long lever arm if you can avoid it as it may negatively impact the motion of your boat.
Disadvantages of wind vs solar power
Wind generators do have some drawbacks compared to solar. The obvious one is that they have moving parts, which both present a hazard to the crew and require replacement or regular maintenance.
The worst-case scenario is a crewmember being struck by the blades. The tips of something like a Silentwind Pro can spin nearly a hundred times a second and get close to breaking the sound barrier.
Here’s an example of where someone accidentally clipped their arm on a sailboat wind generator and it both shattered their arm and sent the turbine blade flying across the cockpit. The author notes that they had also seen the wind generator explode a seagull prior to this incident.
Much of this is mitigated by putting the wind generator outboard and features like electronic brakes, so you don’t need to stop it with your right ulna as the gentleman above did. The upshot is that wind turbines are dangerous in a way that solar panels are not.
The constant motion also generates wear and tear. It used to be worse, back when we used brushed DC motors – but the bearings in brushless motors do eventually wear out too, and they benefit from regular greasing a bit like your winches. It’s just an extra thing to maintain.
It can be too windy for wind generators, too. It can’t be too sunny for solar panels (although it can be too hot). Many modern, top-end marine wind turbines have that electronic brake built in to compensate for this, but you still have to shut down and stop producing when it blows a gale.
Another disadvantage of wind is that it’s really expensive compared to solar on a watt-for-watt basis. Good polycrystalline panels paired with a brand-name MPPT controller might come to $0.50 a watt at the time of writing, while a leading wind generator works out at $5.00 per watt.
This is compounded by the fact that wind does often produce on quite a concave power curve. That is to say, you need a fair amount of wind to produce anything at all, and probably need gusts into the 30-knot range to start to see your rated wattage.
Another often-overlooked point is that if you’re sailing downwind, you are robbing the wind generator of air. If you are sailing downwind in 15kts of breeze, making 7kts, the apparent wind speed at the generator is only 8kts – which might not even be enough to start generating.
Finally, wind generators can be noisy. Again, brushless motors have helped with this significantly, but there is still the rushing of the air over the blades, and any eccentricity in the bearings or blades will send maddening, resonant tremors down the pole and directly into your sleeping quarters at all hours of the night.
The latest wind generators make use of things like acoustic decoupling, a fancy term for having a rubber dampener between the end of the pole and the deck, to mitigate this.
What is a dump load on a wind generator?
A dump load , also called a dummy load or diversion load, is something used in wind power to get rid of excess power when the batteries are fully charged.
One of the small downsides of a power source that runs night and day is the potential to oversupply electricity and overcharge the battery bank.
As an electrical generator supplies more and more power, it gets stiffer and stiffer to turn. The power has to come from somewhere, and it’s felt as resistance – producing a braking effect.
If you suddenly take that braking effect away by disconnecting the battery bank, the wind turbine will start spinning at very high speed, causing anything from rapid and excessive wear on the bearings through to a catastrophic failure where the blades shear off at supersonic speeds.
In order to prevent this from happening, the charge controller has the option to switch between charging the battery and supplying power to a dump load .
The dump load can simply be a big resistor. It will heat up as the wind generator spins on, and safely apply a brake to it by literally just wasting power as heat.
You can probably guess where this is going. Another option is to use an element specifically designed to heat up, and use it to heat water. You can easily buy DC immersion water heater elements for $20-30 , connect them in the place of the dump resistor and use them to make hot water with the excess power instead.
We’ve often daydreamed about using it to make ice or run a teeny tiny aircon unit as well.
Some of the top-end sailboat wind generators will automatically apply an electronic brake and safely stop the blades when the bank is full, and it varies from model to model whether they simply have that as an option, or it replaces the dump load entirely (including useful ones, like making hot water).
Do not be tempted to use the dump load to charge a second battery, such as a starter battery, when the first bank is full. If you do, you will encounter problems once the second battery is full and the turbine starts to freewheel.
If you do want to charge several banks at once, or one after the other, you want a split charger connected to the main charging output instead, and a highly resistive load that can run indefinitely on the dump load output.
Marine wind generators vs hydro generators
Hydro generators are another way of capturing the energy of the wind and turning it into electricity. But instead of capturing the flow of air, a hydro generator is dragged through the water behind a boat under sail.
The elephant in the room here is that a hydro generator is only going to work when the boat is in motion. A wind generator, on the other hand, keeps on producing while you swing around at anchor.
The average cruiser spends around 90% of their time either at anchor, on a mooring ball, on town quays, or in marinas. This is because the everyday business of cruising is not so much about sailing as it is about fixing the boat, going ashore for provisions or parts, waiting for a weather window, or exploring the place you sailed to, socialising with the other yachties you just met, barbecuing on the deck, and so forth.
The wind generator works through all of that, night and day; the hydro generator only a fraction.
So why does anyone use hydro generators at all, then?
The answer lies in the fact that a traditional trade-wind circumnavigation, by far the most popular way to “sail around the world”, is almost all downwind .
As a result, you are often “running away” from the wind when you sail around the world, which has the effect of subtracting your speed from the true wind speed and deducting that much power from your wind generator.
Thus, if you want to sail around the world on say, a performance catamaran, it might make sense to drag a generator behind the boat instead of in the air. That way, its performance is tied to your boat’s speed through the water rather than the apparent wind.
An adjacent use-case to this is people who “sail around the world” in the sense of not stopping, or stopping very little. Someone sailing non-stop downwind around the world, particularly on any kind of record attempt, would probably get a lot more of out of a hydro generator.
Another place hydro generators are seen is in the regenerative systems of systems like Oceanvolt . In these sophisticated systems, the propellors of the boat itself work as hydro generators by spinning and capturing energy as they’re dragged through the water under sail.
This feature is even starting to show up on electric outboards, such as the ePropulsion Navy series.
In summary, wind generators are the most practical choice for the average cruiser, multi-year circumnavigator or liveaboard sailor. Unless you love sailing so much that desperately want to go and tack around for four hours to charge your batteries – in which case, more power to you.
Wind generators can form an incredibly useful part of the renewable energy mix on board a sailboat.
While wind power on a sailboat works out many times more expensive than solar power, watt-for-watt, it makes up for this by generating power day and night – and often making even more power at times when solar falters, such as during storms.
Cruising sailboats that only have solar power will be forced to generate or motor if it’s cloudy for days on end, something that happens at least once or twice a month somewhere like the Caribbean.
Solar, naturally, doesn’t produce at night either, so if you have a lot of electrical loads running overnight your battery bank can take a beating.
A common example of where you might get caught out is night sailing with the autopilot, radar, AIS and instruments all running, in addition to your regular loads like the fridge.
Wind generators might usually be sized to produce less than a solar array because of cost, space and weight considerations, but they have the potential to run all day and night and in any kind of weather, and as such they often punch above their weight in terms of the overall energy generation picture.
Electrical loads might slow down a little overnight, as the crew sleep and lower temperatures mean fridges and freezers don’t work as hard, but it’s not uncommon for the overnight draw on a sailboat to be 8-10 amps or more. It adds up, by morning.
Wind represents an excellent bridging technology for nights and extended cloudy spells, naturally producing the most when solar fails – such as during storms.
A sailboat wind generator is most effective when paired with solar and a good lithium battery bank , allowing you to generate in all conditions. day and night; and to store and retrieve that energy efficiently even at high currents.
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Choosing a Wind Generator
Practical sailor begins its two-part report on wind generators for cruising sailboats begins with a look at features including blade size, number of blades, output considerations and installation..
When cruising sailors think of renewable energy, their thoughts immediately turn to the wind. When selecting a marine wind generator for your boat, several factors must be taken into account, and separating fact from fiction is hard. Claimed output data for specific units can vary greatly from real-world performance. In part one of our series we introduce the six units we test, the Air Breeze from Southwest Wind Power, the Superwind SW250, the KISS High Output, the Ampair 100, and the Rutland 913. The selection presents a good cross-section of micro wind turbines available today and allows us to make some conclusions regarding the best wind generator for particular marine applications.
In 2007, Practical Sailor tested six wind generators side-by-side over the course of four days in February. The previous time we attempted a similar side-by-side test, it was a bust. The turbines spun feebly in a marina with little wind. Prior to that attempt, we long-term tested five models individually on a hilltop in Rhode Island (“Wind Generators, Part 1: Ten Years of Experience,” Oct. 1, 1995, and “Fourwinds II Quietest Large Diameter Wind Generator,” Nov. 15, 1995). Although that round of testing didn’t compare units under the same conditions, we took enough output readings at various speeds to create output curves and came to the dismaying conclusion that over the long haul, an average 50-watt solar panel would outperform the units we tested. (None of the units exceeded an average output of 10 amp hours per day.)
The wrench in the works in both of those previous tests was lack of wind. This time, we had plenty of wind. The test site was at the water’s edge, and five of the six wind generators spun simultaneously: the KISS High Output Wind Generator (made in Trinidad), the Rutland 913 (England), the Superwind SW350 (Germany), a prototype Air Breeze from Air-X makers Southwest Windpower (Arizona), and the Ampair 100 (England).
Conspicuously missing from our test were a pair of two-bladed units: one from Hamilton Ferris (reviewed in our Feb. 15, 2003 issue ) and one model from Fourwinds. Both companies said they could not meet our timetable, despite our long lead time for delivering a unit. Weve been assured that as soon as these units become available,
Practical Sailor will be able to test them. Another unit that looked very promising on paper was the Ampair 300. (Theres also an Ampair 600 for 24-volt systems.) This three-blade, large-diameter unit had a problem with the motor shaft on the first day of testing, and we returned it for repair. We expect to test the refurbished unit soon.
The topic of wind generators is not easily digested over a long lunch. Performance alone may not be the deciding factor, and several other details come into play – not the least of which is the possible mounting location for a set of blades whose tips slice the air at speeds as high as 200 mph. So before we dive into the results of Practical Sailor’s most recent wind generator test , we will focus here on key decision points in purchasing a wind generator and some general conclusions regarding wind generator selection based on our testing.
Wind Generator 101
Wind turbines convert the kinetic energy of the wind into mechanical power, and ultimately electricity. This electricity can be used immediately to power equipment, but is typically stored in batteries for future use. Larger turbines may generate enough power to carry or “float” larger loads (such as a small fridge during an overnight stay aboard), while smaller units produce enough electricity to power smaller loads for a few minutes (bilge pumps, etc.) or perhaps top off your battery banks after a weekend outing.
All generators share a few basic components: a rotor – they don’t propel, so theyre not propellers – with aerodynamic blades, an electrical generator, some form of rotor over-speed control, and a mounting system (pole, arch, etc.). Most also will have rotating electrical contacts, which enable the unit to operate in a continuous 360 degrees of rotation. All but one of the units in our test, the KISS, had this feature. The KISS generator has an internal spring (inside the mount) and a rope lanyard tied to the tail of the unit and mounting pole – the lanyard is a specific length to prevent the unit from rotating more than three or so times, after which the spring is supposed to return it to its original position once the wind dies down.
Wind turbines either produce direct current (DC) or alternating current (AC) power, which is then converted to DC via a rectifier. Of the models we tested, the KISS and both Ampair units utilize a rectifier to convert AC to DC, while the Rutland 913, Air Breeze, and Superwind 350 produce DC. Each approach has its pros and cons: AC can be transmitted over longer wire runs with less power loss (due to overall resistance of system wiring), even when smaller gauge wire is utilized. DC systems, on the other hand, don’t require the use of a rectifier, which reduces expense, cuts down on the number of parts that might fail, and eliminates a few installation steps. As for cons, DC motors have brushes and commutators, both of which require periodic maintenance to prevent generation of electromagnetic interference (EMI), which can disrupt onboard electronics. The rectifying diodes in AC-producing units can also be damaged if exposed to reverse-polarity voltages during installation or maintenance.
Design Evolution
In terms of design evolution, no great technological breakthroughs have emerged since our last test. According to Betz Law (see “Estimating Wind Power”) a wind turbine can theoretically use about 60 percent of the energy in any wind. Even the small turbines meant for use on land are still far from that ideal.
“What they are getting is a piece of that 60 percent Betz limit,” said Jim Johnson, a mechanical engineer for In the Wind at the National Resources lab. “The better units will produce about 40 percent of that limit.”
Ongoing research at National Wind Technology Center – including the development of more efficient, quieter blades – will eventually trickle down to micro-turbines (as the boat-sized units are called). However, the limited marine market, price-point competition, and design limitations imposed by marine applications likely will slow this process. Advances generally have been baby-step improvements in rotor noise, more efficient blades, reduced shaft friction, and smarter regulators. If the last 12 years are an indication of whats to come, what we buy this year probably wont be much different than what will be available five years down the road, when our turbine will likely need an overhaul or replacement. Like any moving part on a boat, these things do break down.
Power Output
Wind-turbine makers often bear a “label rating” according to potential output under ideal conditions. For instance, the Ampair 100 will produce 100 watts (volts x amps = watts) in a 28-knot breeze. Aside from the fact that no one purposely chooses to anchor for long in a 28-knot breeze, these numbers can be deceiving.
Turbine manufacturers will typically provide speed-output curves that graph output at all wind speeds within their units range of operation. Others will simply indicate projected output at a sampling of fixed, steady wind speeds. Either approach can yield a distorted picture of real-world output. Some makers base their steady-wind output projections on absolutely fixed wind speeds (impossible, except in a wind tunnel). Other makers reach their output numbers by using a standard wind distribution model known as the Rayleigh distribution, a statistical method used by wind power experts to translate average annual wind speed data into potential wind power estimates (see chart below).
“You should take any output figures published by the manufacturers with three very large grains of salt,” say Paul Gipe, whose website ( www.wind-works.org ) and book (“Wind Power: Renewable Energy for Home, Farm and Business”), covers the topic of wind power for land applications in great detail.
This, of course, is one of the reasons we are looking at these units in a real-world application.
Wind Turbine Types
Wind turbines can usually be classified as either small rotor units (blade diameters less than 48 inches) or large rotor units, with typical blade diameters of around 60 inches. All things being equal, the highest potential output will increase with the diameter of the rotor. A rough rule of thumb is that larger units typically generate around 4 amps in 10- to-15 knots of steady wind, while smaller units average about 1.3 amps.
The main challenge confronting any wind generator is the fickle nature of wind itself. Wind generators present a Catch 22 scenario. While they are most effective when exposed to steady winds with the vessel at anchor, the best anchorages tend to be sheltered from the wind. As such, the cut-in speed of a wind generator (the point where it actually starts producing electricity) and its output in lower winds (10 to 15 mph or less) can be more important than maximum rated output.
Smaller, multi-blade units (typically six blades) have an advantage in this respect. These blades have less inertia, so they require less wind to start turning, allowing them to reach their cut-in speed and start producing power sooner in light winds. So, if your cruising anchorages are characterized by light breezes, a small blade is the way to go … or is it?
A key factor in potential power output is the cube rule: Available wind power varies as a cube of wind speed. So if wind speed doubles, energy content (measured in kilowatts per square meter) increases eight times. A 10-mph wind has one-eighth the power of a 20-mph wind (10 3 =1,000 versus 20 3 =8,000), and a seemingly insignificant increase in wind speed from 10 to 12 mph can increase available wind power by 73 percent.
What this means from a practical standpoint is that if you choose a quiet anchorage that experiences occasional higher-than-normal gusts (squalls or katabatic winds, for example), a wind turbine could potentially yield more energy than it would if you were anchored in a steady, moderate breeze during the same time period.
Wind generators with fewer larger blades have higher maximum outputs and can produce more power in higher winds. (A one-bladed rotor, odd as it may seem, has greater potential for output than one with multiple blades.) This means that while a large-blade turbine might not match the output of a small-blade wind generator in light winds, its higher output in gusts can compensate for its higher cut-in speed and poor performance in lighter winds. A key factor is whether the occurrence of higher gusts is high enough to keep up with power demands.
Another consideration output-wise is that while sailing downwind, you have to subtract the boats speed from the wind speed to get the apparent effective wind speed at the generator. If the true wind speed is 14 knots and boat speed is 7 knots, your generator is actually “seeing” only 7 knots, meaning output will be greatly reduced.
Rotor Speed Control
While wind generators obviously require wind to operate, at some point (typically around 35 knots of sustained wind), youre approaching the too-much-of-a-good-thing level, and some form of blade speed control mechanism is required to prevent physical damage to the unit and, in some cases, the boats batteries. Braking, or blade speed control, can be accomplished in a number of ways. Some units have “self-braking” blades that stall at certain speeds, while others are designed to gradually turn away from the wind as higher than acceptable speeds are reached. Friction or air-brake systems are also used, as well as electrical stop switches. Finally, some turbines require you to physically tie or secure the blades, often an unattractive prospect in a rocking boat, considering the speed at which the blades can rotate. For extreme weather conditions, even the makers of units with stop switches recommend that you physically secure the blades and rotate the units to reduce windage, or remove the unit altogether.
OtherConsiderations
While construction, size, weight, and ease of installation are all important considerations when choosing a wind turbine, noise is often a deciding factor. All models are noisy to some extent. However, some units are as loud as an engine or genset running at anchor, which defeats one of the reasons folks turn to renewable energy – peace and quiet.
Much of the noise from a wind generator is caused by air movement at the tips (tip vortices) and back edges of the blades, which is why there is constant refinement in blade design. Blades with fine, smooth trailing edges and smaller tips will generally be quieter. Although noise can be reduced by factors such as construction and blade design, as a general rule, units with smaller blades are quieter than those with larger blades. The number of blades is a factor as well – a six-bladed unit will always be quieter than a two- or three-bladed unit, provided the blade diameter and design is equal.
Some folks don’t mind the noise of a larger unit, equating it to the sound of “money” flowing into the proverbial energy bank. Others (often those anchored beside you) will find it annoying. A good way to compare noise levels of various units “in the wild” is to walk the docks of your local marina or dinghy around the mooring field and observe others wind gens – it also gives you the opportunity to ask how satisfied the owners are with each unit.
Wind-power study is rich with mathematical formulas, and theres one to account for mounting height as well. According to the Wind Profile Power Law, wind speed rises proportionally to the seventh root of its height above sea level. By this formula, doubling the height of a turbine, then, increases the expected wind speeds by 10 percent and the potential power by 34 percent. However, at the slight altitude changes that are possible on a boat (say the 20 feet between a pole mount and a mizzen mount), this formula will likely have little bearing.
More important for our discussions of boat mounting is the “roughness” factor, which accounts for obstructions that impede windflow. The slight shift from pole mount to masthead will clearly alleviate roughness. How this will affect output will vary from boat to boat. Estimated increases in output range as little as 10 percent to more than 20 percent.
Mounting a wind generator is often a balancing act of aesthetics and performance, meaning your choice can look good but operate poorly or vice versa. The best spots are those that offer an unobstructed flow of wind while keeping whirling blades well clear of rigging, self-steering vanes, davits, or, most importantly, the outstretched arms of the tallest crew member.
Stern Poles and Arches
Stern poles and arches are popular mounting choices – both keep your wind generator in place where it can be tied down or serviced, but up and out of the way of outstretched arms. Stern poles are less expense, but proper bracing is crucial not only for strength, but to reduce movement of the pole (which, in turn, minimizes vibration and noise transmission belowdecks). Arches cost more, although the added expensive of having one fabricated can often be justified if it will serve multiple purposes (i.e., mounting for radomes and solar panels as well). The multiple attachment points on deck can also serve to dissipate vibration on the deck.
Mizzen-Mast Mount
A boat with two masts has the option of mounting its wind generator about two-thirds up the mizzen or at the very top. Both choices offer more exposure to wind and provide a cleaner-looking deck, however, they do add weight aloft and the units will be more difficult to service. Theyll also require longer cable runs, meaning you may have to upgrade to larger wire sizes to address voltage drop concerns. Securing them will also be more of a challenge, particularly those that have to be physically tied off in high winds.
Rig-Suspended Mounts
Rigging-suspended mounts, such as a fore-triangle hoist, are a good alternative when you just can’t seem to locate that perfect mounting spot. This option produces less vibration, and units that are designed to be deployed in this manner can easily be removed and stored to clear the decks when needed, however, they can’t be used while underway.
Conclusions
Based on our research (including the most recent data that well report next month), a large-diameter, three-bladed unit is a good choice if maximum potential output is a chief concern. Small-diameter units can’t be written off, however. If low noise, small size, and a low cut-in speed (for low wind areas) are your first priorities, these units have much to offer.
Three of the units in our most recent test – the Superwind 350, the Air Breeze, and the Kiss High Output – had best days of 88-115 amp-hour production. Worst days were less than 10 amp hours. This is enough, or nearly enough, to meet the average amp-hour requirements aboard a modern cruising boat fitted with a watermaker and refrigeration.
Despite these persuasive numbers, our evaluations and experience in the field indicate that relying on a single wind turbine for ones primary energy source is not the most sensible way to optimize for efficiency, particularly while under sail, when the rocking motion of the boat further inhibits performance. Solar panels have no moving parts, are durable, and in many ways are better suited for a lifestyle that tends to follow the sun. With the assistance of todays Multi Point Power Tracking Technology (See “ Boosting Solar Panel Output ,” Chandlery, August 2006), a single, 80-watt solar panel can replenish as much as 60-80 amp hours on an ideal summer day. Wind turbines, in our opinion, should be regarded as a viable option for a cruising sailboat with high energy needs to supplement its solar panels, genset, or high-output alternator – not as the ultimate solution to onboard energy production. Next month, well take a close look at the performance and features of each of the units.
- Installation Options
- Wind Generator Details
- Plotting Wind Distribution
- More Wind Generator Details
- Wind Generator Blade Design
- Estimating Wind Power
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please watch out when buying a Chinese turbine or other power generator items. they say 400-watt turbine but what they really mean is 400 watts/day. i had this problem. I could only get maybe 3 amps out of it now I know why. I also saw somewhere in the article they talked about amp-hours why? are all specs really per hour?
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- Harnessing the breeze: A guide to wind-powered generators for boats
The world of boating is experiencing a green revolution, with an increasing number of boat owners turning to sustainable and eco-friendly energy sources. One of the most promising options in this regard is wind-powered generators. These innovative devices harness the power of the wind to generate electricity, offering boat enthusiasts a clean and efficient way to charge their batteries and keep their onboard systems running smoothly.
The green revolution: Eco-friendly boating
The environmental impact of traditional marine propulsion methods, such as internal combustion engines, has raised concerns among boaters and conservationists alike. Recognizing the need for more sustainable practices, many boat owners are seeking alternatives that reduce their carbon footprint and minimize their impact on aquatic ecosystems.
Wind-powered generators offer a compelling solution to these challenges. By harnessing the wind's energy, boaters can significantly reduce their reliance on fossil fuels and, in turn, decrease harmful emissions. This shift towards cleaner energy sources aligns with the broader global effort to combat climate change and preserve the beauty of our waters for future generations.
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Types of wind turbines
12v wind turbines: compact and efficient.
For boaters looking to harness wind power efficiently without taking up too much space, 12V wind turbines are an excellent choice. These compact and lightweight devices are designed to generate electricity specifically for 12-volt systems commonly found on boats.
12V wind turbines are known for their efficiency in capturing wind energy and converting it into electrical power. They are often easy to install, making them a practical option for boaters who prefer a DIY approach. Whether you have a sailboat, a small yacht, or a motorboat, a 12V wind turbine can help keep your batteries charged and your onboard electronics operational.
Portable wind turbines: Power on the go
If your boating adventures take you off the grid or to remote locations, portable wind turbines can be your reliable source of power. These turbines are designed for on-the-go energy generation and are often lightweight and easy to transport.
Portable wind turbines are versatile and can be set up quickly at your anchorage or campsite. They are an ideal choice for sailors, campers, and outdoor enthusiasts who value sustainability and energy independence. With a portable wind turbine, you can enjoy the convenience of electricity even in remote and off-grid locations.
Marine wind generators: Specially designed for boats
Marine wind generators are purpose-built for the unique challenges and demands of life on the water. These turbines are designed to withstand the harsh marine environment, including saltwater exposure and high winds.
Boat owners often choose marine wind generators for their durability and reliability. Whether you have a cruising sailboat, a fishing trawler, or a live-aboard yacht, a marine wind generator can provide a consistent source of electricity to support your navigation equipment, appliances, and lighting.
Selecting the right wind turbine
Selecting the right wind turbine for your boat involves considering several critical factors. To ensure that your turbine meets your energy needs and operates efficiently, take the following aspects into account:
1. Energy requirements: Begin by assessing your boat's energy requirements. Consider the devices and systems you need to power, such as lights, navigation equipment, refrigeration, and communication devices.
2. Available space: Evaluate the available space on your boat for installing a wind turbine. Different turbines have varying size requirements, so choose one that fits comfortably on your vessel.
3. Wind conditions: Consider the typical wind conditions you encounter while boating. Some turbines are better suited for low-wind areas, while others excel in high-wind environments.
4. Installation: Determine whether you prefer a DIY installation or if you'd like to enlist the help of professionals. Proper installation is crucial for safety and efficiency.
5. Budget: Wind turbines come in a range of prices. Establish a budget that aligns with your boating needs and financial considerations.
Once you've evaluated these factors, you can match your energy requirements with the appropriate wind turbine. Whether you opt for a compact 12V turbine, a portable solution, or a robust marine wind generator, choosing the right turbine ensures that you have a reliable source of clean energy while on the water.
Installing your wind-powered generator
Diy installation vs. professional help.
Installing a wind-powered generator on your boat can be a rewarding experience, but it's essential to approach it with careful consideration. While some boaters are skilled enough to perform a DIY installation, others may prefer to seek professional assistance. Here are the pros and cons of each approach:
DIY installation:
- Cost Savings: DIY installation can save you money on installation fees.
- Learning Experience: It offers the opportunity to learn more about your boat's electrical systems.
- Customization: You have full control over the installation process.
- Skill Required: DIY installation demands a certain level of technical skill.
- Time-Consuming: It can be time-consuming, especially if you're new to wind turbines.
- Safety Concerns: Improper installation can pose safety risks.
Professional help:
- Expertise: Professionals have the knowledge and experience to install wind turbines correctly.
- Time-Efficient: Professional installations are typically faster.
- Safety Assurance: Professionals prioritize safety and compliance.
- Cost: Professional installations come with associated costs.
- Less Hands-On: You may have less involvement in the installation process.
Ultimately, the decision between DIY installation and seeking professional help depends on your skills, comfort level, and the complexity of the installation.
Ensuring safety and efficiency
Regardless of whether you choose to install your wind turbine yourself or hire professionals, safety and efficiency must be top priorities. Here are some essential tips to ensure a safe and efficient wind generator installation:
1. Secure mounting: Ensure that the turbine is securely mounted to prevent vibrations or movement that can cause wear and tear.
2. Proper wiring: Follow manufacturer instructions for wiring to prevent electrical issues and ensure the turbine operates optimally.
3. Regular maintenance: Implement a routine maintenance schedule to keep your wind turbine in excellent condition.
4. Safety precautions: Follow safety guidelines and use appropriate safety gear when working on the turbine.
By prioritizing safety and efficiency during installation, you can enjoy the benefits of wind-powered energy without concerns about reliability or safety hazards.
Maintenance and troubleshooting
Keeping your wind turbine in top shape.
Like any mechanical system, wind turbines require regular maintenance to operate efficiently and reliably. Proper maintenance can extend the lifespan of your turbine and prevent costly breakdowns. Here are some key maintenance tasks:
1. Cleaning: Keep the turbine and blades clean, removing debris, salt residue, and bird droppings regularly.
2. Lubrication: Ensure that all moving parts are adequately lubricated to reduce friction and wear.
3. Visual inspections: Periodically inspect the turbine for signs of damage or wear, such as loose bolts or corroded components.
4. Electrical checks: Test the electrical components, including wiring and connections, to identify and address any issues promptly.
5. Battery maintenance: If your wind turbine is connected to batteries, maintain the batteries according to the manufacturer's recommendations.
6. Storm preparations: When severe weather is expected, secure or remove the turbine to prevent damage.
By incorporating these maintenance tasks into your boating routine, you can maximize the lifespan and performance of your wind-powered generator.
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Blowin’ in the Wind: The Best Marine Wind Generators
Whether you're walking down a road, climbing a mountain or sailing on the sea (with a white dove, maybe), there's one constant: Wind.
Bob Dylan may have had all sorts of other ideas in mind when he wrote "Blowin' in the Wind," but the idea stands. When the wind blows, power is supplied. The times, they are a-changin', and we boaters need power out on the water for motor batteries , stereos, marine electronics, lights, bilge pumping and what have you.
Sure, when you're in your marina slip, you can just hook up to power. But when you're out on the water, that's not exactly feasible. Plus, it's always good to do everything we can to save the environment, reduce our carbon footprint and what-not.
Today, we're going to discuss the best marine wind generators and turbines for boats to answer your power problems whether you're a leisure powerboater, a liveaboard sailor or own the wooden schooner Water Pearl (that would be Bob's, of course). More Dylan references may or may not ensue.
What Is a Marine Wind Generator?
You know those wind turbines you see standing tall on land? Well, a marine wind generator is essentially the same thing. It's just smaller and attached to a boat (or a magic swirlin' ship).
Swirlin' ships aside, marine wind generators work by harnessing the kinetic energy of air, or to be exact, the wind. Once caught, the wind is converted to a rotational motion that turns an alternator, which then produces electrical energy. This energy can be used immediately or stored in batteries (12V or 24V) for later use. Voila, it really is magic!
Parts of a Marine Wind Generator
- Blades are those things on the end that turn (similar to the blades on a ceiling fan). They're connected to a shaft that turns with the blades.
- A tower or mast , usually about 9' tall, is the pole that attaches to the boat (like a sailboat mast) and holds the blades up in the air.
- Stay poles , usually two 8' poles, are used to hold up the mast. They're attached at an angle to keep the mast in place.
- Clamps, crimp rings and TY wraps are used to keep it all together.
- Control panels and electronics let you make sure everything is operating as it should.
Benefits of a Marine Wind Generator
- Economical (free energy!) - This is probably the biggest reason to consider a marine wind generator. Once you've made the initial purchase cost, you've got all that free energy coming in. We boaters need all the free we can get.
- Relatively low maintenance - Marine wind generators are pretty much an install it and forget it kind of thing. Like the song, it's just there blowin' in the wind.
- Environmentally friendly - We all want to conserve energy, go green and save the environment (or we should if we really love the boating lifestyle like we say we do). Marine wind generators don't add to air or water pollution, and they don't emit greenhouse gases.
Disadvantages of a Marine Wind Generator
- Noise and vibration: They can be quite noisy (especially when the wind is really kicking it up). You'll be on a rockin' boat whether you want to or not.
- No wind, no power: This one is self-explanatory.
- Very high winds: On the flip-side, marine wind generators can be damaged in very high winds. There are, of course, ways to avoid this problem. You can use a regulator or charge controller that senses the battery voltage and reacts in the appropriate manner. Some wind generators can change the pitch of each blade in response to the wind. Others have flexible blades that bend easier in the wind (this method, however, can cause even more noise).
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What to Consider When Choosing a Marine Wind Generator
- Decide how much power you'll need for things like the stereo, navigational electronics, refrigerator, lights, laptops and other devices.
- Where do you spend most of your time on your boat? Ocean or inland? You'll want to gauge the amount of wind generally found in that area.
- What are your normal cruising speeds? Obviously, any wind is good, but most marine wind generators don't provide much power below eight knots.
- What are the water and weather conditions in your normal navigational routes? You'll want to align your choice of wind generator with how rough or calm the water is, as well as the types of weather typically found. As an example, with higher wind speeds, you'll want a bigger blade sweep to get even more energy.
- Where do you want to put it on the boat? I've seen marine wind generators attached to the back of a sailboat, on a hardtop and at the very front of the boat. Take into consideration where it will be out of the way as far as foot traffic on the deck.
- Are there any noise restrictions? Remember when I said marine wind generators can be noisy? I wasn't kidding. Noise restrictions are a real concern in certain places: narrow inland waterways, residential communities and businesses.
Blowin' in the Wind: The Best Marine Wind Generators
The best marine wind generators provide power production and have high blade efficiency and reduced sound. There are a wide array of marine wind generators on the market. I've picked out a few that stood out to me.
Ista Breeze 500w 12V/24V Wind Generator
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The Ista Breeze 500w provides a reliable source of energy in extreme conditions via its hybrid charge controller. It has a low thermal load, an aluminum powder-coated generator alternator case, stainless steel ball bearings and a front bearing with a friction-free sealing disc to prevent moisture , dust and debris.
Ista Breeze i-2000 48V Wind Generator
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The maintenance-free aluminum Ista Breeze i-2000 has a maximum power of 2200w. It has durable and lightweight glass fiber reinforced plastic rotor blades, which also provides excellent stability.
High-strength aluminum housing has cooling fins. The sliding contact provides good current flow and no cable twisting.
Primus Wind Power Air X Marine Wind Turbine
With microprocessor technology and heavy-duty design, the Primus Wind Power delivers great performance and high wind protection. It's lightweight and has integrated power electronics for an easy installation. It produces 30 kWh of energy a month for high-wind marine use.
Primus Wind Power Air Silent X
Due to the enhanced carbon fiber blades, the Primus Wind Power Air Silent X provides increased power and more noise reduction than the standard Air-X.
It operates with a three-phase brushless permanent magnet alternator and microprocessor-controlled electronics.
Happybuy Wind Turbine Generator 400w
The Happybuy Wind Turbine Generator 400w features synthetic injection-molded high-strength plastic blades. Aerodynamic blades allow the rotor to run smoothly and quietly. It's great for use in high wind or in combination with solar panels.
Features include high-quality aluminum and stainless steel fittings, low start wind speed and a permanent magnet generator with low torque integrated automatic braking system. It also offers oxidation and corrosion resistance.
Happybuy Wind Turbine 300w
The Happy buy Wind Turbine 300w offers powerful performance in a unique lantern design. Its three-dimensional lantern-style design generates power at lower wind speeds while effectively regulating current and voltage.
It has auto wind direction adjustment, a permanent low-torque magnet generator and high-strength plastic blades with resistance against UV rays and water and sand corrosion. Plus, it's just cool to look at.
Don't Think Twice: Power Your Boat With Wind
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Wind generators – buyers’ guide
After a flurry of recent technological developments, Duncan Kent compares the latest high-output wind turbines
Three-bladed rotors have become increasingly popular. Although early models were quite noisy, smart CAD-designed blades have considerably reduced the thrumming and whistling sounds by removing the turbulence around the blade tips. Furthermore, the use of more efficient, low-cogging (less initial friction) permanent-magnet alternators has also allowed blade speeds to be reduced, further limiting ambient noise levels.
AIRBREEZE £1,169.50
The Airbreeze is easy to assemble as everything is contained within the casing, requiring only a quick blade assembly before being ready to mount. It’s not the most powerful and can be a little noisy in high winds, but it’s very good value as you don’t need to spend money and time installing an external charge controller.
Verdict: Easy to assemble, mount and operate, but noisier and less powerful than some
ecopowershop.com
ECLECTIC ENERGY D400 £1,350
Although it’s fairly straightforward to assemble, it’s not made any easier by the sheer weight of the generator.
During previous trials it proved to be one of the quietest on test, started quickly and outputting an increasingly progressive rate of charge. It is also less prone to yaw from side to side than some, keeping head into wind to ensure a more stable output.
Provided its mounting can handle the loads, its sturdy build allows it to continue operating in very high winds, producing a staggering 50A+.
Verdict: Solidly engineered, very powerful and quiet. The flip side is it’s heavy and needs dump resistors
eclectic-energy.co.uk
LEADING EDGE LE-300 £649.95
The device is easy to assemble and light enough to carry in one hand. An integral rectifier produces a two-wire DC output and its efficiency has recently been improved with the fitting of stainless steel counterweights to offset the effects of pitching and yawing common on a yacht.
A run/stop switch is supplied that brakes the turbine by shorting its output. It can also be supplied with a dump load style regulator to prevent overcharging (£189.95).
The LE-300 is probably the quietest of all the three-blade models available, but it’s also one of the least powerful.
Verdict: Light and great value, but with a lower output than many of the others
leturbines.com
LEADING EDGE LE-450 £899.95
The alternator uses rare earth fixed magnets and has zero ‘cogging’, allowing the turbine to start quickly and to spin in the lightest of breezes. Furthermore, having five blades of advanced design allows the swing radius to be kept to a minimum and reduces wind noise noticeably, while its light weight allows it to be safely mounted on a mizzen mast or possibly even a stout spreader.
Verdict: Well designed, lightweight and good value, but needs manual tethering in over 35kt of wind
RUTLAND 914i £649.96
An optional multi-stage charge regulator is available, which has an on/off switch and LED charge status indictors. It can also accept and integrate solar panels up to 160W.
The surprisingly cheap HRSi regulator (£78.50) works electronically to gradually slow the turbine in high winds or near full charge situations, rather than using resistive dump loads.
The 914 is quiet in operation and quick to start generating in light winds. Well made, its heavy metal hub acts as a flywheel, giving it enough momentum to smooth out the pauses during brief lulls in the wind.
Verdict: Quiet and inexpensive, with a smart controller. Relatively low output
marlec.co.uk
RUTLAND 1200 £1,195.00
High rotation speeds and efficient alternator design results in plenty of raw power. Marlec’s latest smart HRDi charge controller (£155.95) continuously alters the rotation speed of the generator, slowing it down as the batteries become more charged. It also incorporates the latest Maximum Power Point Tracking (MPPT) technology to optimise all the available energy produced and Pulse Width Modulation (PWM), which enables multi-stage charging to keep the batteries topped up. Other features include dual-battery bank control, an input for up to 250W of solar panels and an optional remote digital display.
Verdict: Powerful, well-made and with smart regulation. Has a wide rotation diameter
SILENTWIND 400 £1,291.33
The Silentwind is heavier than it first looks, mainly due to its high output, permanent magnet 420W alternator. Recent (2016) upgrades include a boost feature in the generator and a lower start speed thanks to its ‘low cogging’ design.
Available in 12V, 24V and 48V versions, its three-wire AC output connects directly to a recently upgraded smart charge controller with solar inputs, an LCD display, integral brake switch and Bluetooth connectivity so the user can monitor their battery status and charge from a mobile device or laptop. Furthermore, the new controller (£410.42) now consumes only 20mA itself, rather than the 100mA of the old model.
Verdict: High power output and a nifty Bluetooth smart controller, but all at a price
technicalmarinesupplies.co.uk
SUPERWIND 350 £1,528.75
The SCR Marine charge controller option (£384) has two independent outputs, for start and service banks, although it does rely on the rather crude method of dumping any excess loads to two large resistors, which can get very hot if the device is left running in a gale.
Despite having a slightly lower output alternator than some, in field tests this device gave a very respectable performance in wind up to 15 knots, and provided serious amps in higher winds up to 28 knots.
Verdict: Light, well made, quiet and powerful, but expensive and reliant on dump load regulation
mactramarine.co.uk
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Best Marine Wind Generator 2021
Getting your hands on a boat is only the first step towards becoming a true sailor. Once you’re comfortable with how your boat handles and operates, it’s time to start customizing it to your liking. Installing something like a marine wind generator can let you enjoy some of the amenities you’d only find onshore.
However, even budget marine generators can be relatively pricey compared to other, more minor fixtures. This means that a little bit of research can go a long way when it comes to saving you money and finding the right product will be sure to work. Today’s review guide will be based on finding the best marine wind generator .
We’ll look at six different turbine generators in this guide, each of which excels in its own way. After our reviews, we’ll also explore some of the key features to look for in a high-quality marine wind generator, and we’ll answer some frequently asked questions. For now, however, let’s get started with our reviews.
Best Marine Wind Generator
Our top pick: tesup master940 wind turbine kit, key points at a glance.
- Durable injection-molded fiberglass blades
- Lightweight aluminum body
- Turbine blades engineered for quiet operation
- Cooling fins help dissipate heat around the generator body
- Generates up to 900W of power
The Details
The best marine wind turbine is the TESUP Master940. As the name suggests, this model can produce over 900W of power, making it the most powerful turbine on this list. Sweet!
However, there are more reasons to buy this wind turbine than just its high level of power output. Here’s the power output curve:
This model has some of the best build quality we’ve seen in a consumer wind turbine. All of the Master940’s components have been built to be as strong and light as possible. This is evident when you take a look at the materials used in its construction, with fiberglass blades and a strong yet light aluminum body.
The Master940 is equipped with a few clever features that help keep it running smoothly and prevent long-term damage due to overspeed. Unlike other wind turbines, this one comes equipped with a load dump system consisting of resistors in the charge controller that improves the reliability of the Master940’s wiring and circuits.
This wind turbine system is also designed to cut down on the amount of maintenance that you have to perform, as it comes equipped with a charcoal-free sliding contact that won’t have to be topped up.
The Master940 is designed to be used in all environments, and it won’t fail at high or low temperatures because of its inbuilt resilience.
The aluminum housing has better thermal transfer characteristics, and the inclusion of fins helps generate wind-flow that dissipates the heat into the surrounding air.
This turbine’s only weaknesses are its high price point and its relatively complex setup process, but they’re both a small price to pay for the Master940’s impressive performance and quality. This the best marine wind turbine available.
Our Runner Up: 400W Lantern Vertical Wind Generator by Happybuy
- Double bearing design helps reduce vibration and noise
- Microprocessor control gets the best performance out of the turbine at all wind speeds
- The vertical turbine design offers omnidirectional performance in all wind conditions
- Effective at harnessing the turbulent wind in the wake of a boat’s superstructure
While our runner up wind generator may not look as traditional as some of our other top picks, there’s a reason why the Happybuy Lantern-style looks like that. The layout of the fan blades on this model is designed to keep the power output constant no matter which direction the wind is coming from.
The improved omnidirectional performance of this wind generator makes it ideal for use on boats, especially those with a more cluttered superstructure. If you only have room for your wind generator near the back of your boat, you’ll still be able to generate power using that disrupted windflow.
Along with its unique design, the Happybuy 400W lantern wind generator is easier to assemble than most of the competition. If you don’t have much experience working with wind generators, then you can get this model up and running on the same day that you receive it.
Keep in mind that this model is mainly designed for faster wind speeds, as you won’t get much power output at speeds below 25 mph. While it will start spinning at lower speeds, you simply won’t get much useful power out of it. If you’re looking for a relatively well-built unit with powder-coated components and the ability to operate in a variety of wind directions without adjustment, this model is a great fit.
Best Budget: Happybuy 400W Wind Turbine Generator
- Features a corrosion-resistant design with an aluminum housing and stainless steel fittings
- The magnetic circuit allows the generator to run at low wind speeds
- The automatic braking system prevents damage from high wind speeds
- 400W of power output
Compared to the previous model from Happybuy, this 400W wind generator features a more traditional design, and it’s one of the more affordable options on this list. Despite featuring such a low price point, this Happybuy wind turbine is surprisingly reliable, and that’s one of the most crucial features to look for in a budget turbine.
Here’s the power output information:
To further improve its long-term reliability, this Happybuy wind turbine is made out of corrosion-resistant materials that have further been treated with a coating to reduce damage from UV light and salt spray. This model’s durability also makes it more effective in gusty conditions where other models may even be damaged by high wind speed.
Keep in mind that this wind generator doesn’t come with a mounting pole, so you’ll either need to buy the official one separately or you’ll need to create your own. While you’ll have to get creative when you come up with a mounting solution, assembling the turbine itself is surprisingly easy, and you can even do it if you’re a beginner.
In case of overspeed, the Happybuy wind turbine is equipped with an automatic braking system that will prevent the components from being damaged. Overall, this model may not be the best-performing on this list but it offers much more than its competitors within the same price range.
- ♻[MAIN PARAMETER] ~ Rated Power: 400W ; Rated...
- ♻[CONTROLLER INTRODUCTION] ~ Model: FWS03/06-12...
- ♻[HIGH-QUALITY BLADE] ~ The blade material is...
- ♻[POWERFUL PERFORMANCE] ~ 3Phase AC PMG,...
- ♻[WIDE APPLICATION] ~ This wind turbine is...
Best for Ease of Installation: SHZOND 400W Wind Turbine Generator
- Max rpm of 800
- Fiberglass reinforced blades
- Comes with mounting hardware included
- 400W of rated power output
The SHZOND wind turbine generator may look like a pretty standard one at first glance, but it’s designed to be a perfect fit for customers who are new to marine turbines. To that effect, the SHZOND 400W turbine is designed to be assembled in less than an hour, and it’s remarkably easy to use once you have it built.
This is also one of the lightest wind turbines on our list, as the housing is made out of vinyl while the blades are made out of fiberglass. The only metal parts you’ll find on the SHZOND wind turbine include the nose cone and the stainless steel mounting hardware and screws that keep all of the parts together.
Compared to other wind turbines on this list, this model from SHZOND will start spinning at lower wind speeds, only requiring about 10 mph speeds to start generating power. Keep in mind that this model is relatively sensitive to rapidly shifting wind directions because of the flexible mounting, so you may have to anchor it in a particular direction if you don’t want it to spin out of control.
This model’s control unit is also equipped with an auto-shutdown feature, ensuring that you don’t overload the battery.
Despite being easy to assemble, this SHZOND wind turbine comes with relatively vague instructions, so you’ll have to rely on the pictograms and what other customers have said about the assembly process. Even though this may seem like a pretty major annoyance, the SHZOND wind turbine’s strengths more than make up for it.
- Well suited for the leisure sector, it is famous...
- Wind generator rated power: 400W;Rated Voltage:...
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- Blades using reinforced glass fiber, helped with...
Best for Output Per Dollar: Automaxx Windmill 600W Wind Turbine Generator
- Weather-resistant construction and corrosion-resistant materials
- Features both automatic and manual braking systems
- 600W of power output
- Comes with a one-year warranty
This Automaxx wind turbine has a higher power output than many of its competitors at the same price point, so if you’re looking for something powerful that can provide good value for money, this is it. To make this model more suitable for use in marine environments, it is made out of corrosion-resistant materials.
This model has a maximum rated speed of 30 mph since it doesn’t feature a mechanical braking system, so it is more suitable for regions without extreme wind gusts. However, to make up for this, the Automaxx wind turbine has a relatively low cut-in speed, so you’ll have a broader band of wind speeds in which this model can operate.
The Automaxx turbine also swivels in a 360-degree arc so that it can be adjusted to match the wind direction. Unlike some of its competitors, it takes a lot for the wind to push the turbine out of alignment on its own, so you won’t have to worry about putting extra work into securing it so that it remains facing the wind.
The included charge controller features a wattage display and can easily be wired directly to your battery or battery bank. Here’s a basic wind turbine wiring diagram:
One of the main weaknesses of this model is that it uses only a magnetic braking system, and we would prefer it to be supplemented by a mechanical brake that could let it work in higher wind speeds.
- 【Effective Generation】Maximum power generation...
- 【Wide Range of Applications】 Marine-grade,...
- 【Environmentally Friendly】Take a stride...
- 【MPPT Charge Controller】Max power point...
- 【Easy Installation and Maintenance】We take...
Best Marine Wind Generator Buyer’s Guide
Marine wind generators are an excellent choice for sailboats that may not have a powerful enough generator to run all of the onboard electrical devices. However, they aren’t only made for sailboats, as some smaller motorboats may not have an efficient way of siphoning power from the engine for electrical implements.
Using a marine wind generator hooked up to a battery, you can run devices like your radio, onboard GPS, and you can even charge your phone. Marine wind generators are also a better choice than small generators or auxiliary power units since they’re smaller, quieter, and more ecologically friendly.
Important Features to Consider
Ease of use and ease of setup.
Wind turbines still require a certain level of knowledge on the part of the user, but as time goes by, they get easier to hook up and use. A wind turbine that’s designed to be as user-friendly as possible therefore overcomes one of the main hurdles that many buyers face when they consider purchasing them.
A marine turbine needs to be made out of suitable materials so that it doesn’t end up getting damaged by the elements while it’s mounted to your boat. Metals like aluminum and stainless steel won’t rust and therefore fail after a bit of exposure to water.
The material will also determine how heavy your wind turbine is. Too heavy of a turbine may adversely affect your boat’s performance and will certainly be more difficult to set up.
Frequently Asked Questions
Do i need to wire my marine wind generator myself.
Yes, in the vast majority of cases, you’ll need to hook up the generator to the battery that you’re using to store the energy, so you’ll need to have a basic idea of what you’re doing to get the system running.
Can I supplement my marine wind generator with solar panels?
Yes, you can wire your marine solar panels into your energy generation system on your boat, even coupled with your wind turbine. In fact, some wind turbines are even designed to work with solar panels straight out of the factory, without much modification on your end.
Other Products We Looked At:
Marsrock small wind turbine 400w.
Aside from that, there are plenty of intelligent design features like the copper brackets in the blades that will prevent you from accidentally damaging them by tightening them too much. The charge controller on this wind turbine is also relatively intelligent, cutting down the speed of the blades so that the power output is consistent.
One of our favorite things about this wind turbine is that it’s a lot more affordable than many of its competitors, but it’s still reliable and features the same 400W power output. While this wind turbine is a solid choice, it doesn’t exactly stand out in any particular area, so it couldn’t match our top five.
- Copper brackets in the blades keep them from cracking when fastened to the hub
- The blades are made of plastic reinforced with carbon fiber
The Master940 is the best marine wind generator available, and its only major downside is that it’s so expensive. If you’re not willing to spend so much on your marine wind turbines, the Happybuy Vertical Wind generator is available for a more reasonable price and can generate power regardless of the direction the wind is coming from.
If you’re trying to save even more money, and you’d rather opt for a more traditional type of marine wind turbine, Happybuy’s other 400W wind turbine is cheap, easy to set up, and much more reliable than its competitors.
We hope that these reviews have given you a good idea of what to expect from these marine wind generators.
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Enjoy energy independence – With our safe and quiet generator
The Silentwind wind generator is designed to charge batteries on sailing vessels by converting wind energy into electricity.
The generator has been developed and produced for use in marine environment. It can be used in various wind conditions: small, medium and high.
Silentwind is lightweight (6kg), built in aluminum alloy suitable for marine environment, corrosion protected, stainless steel shaft, waterproof sealed bearings.
The Silent Power Blades are produced in carbon fiber, hand-laminated, with great resistance and minimum noise emission, which is the great differentiator of the Silentwind.
The charge controller is external, hybrid (wind and solar energy), has multifunction display and integrated stop switch (electronic / manual).
The parameters can be adjusted directly in the controller or through the application that is available in IOS and Android. Among the available parameters are the brake module, which allows the maximum current adjustment, and the load cut-off voltage module, which regulates the maximum charge voltage of the batteries.
Silentwind starts charging with only 4kn wind, generating 50W at 14kn and 100W at 19kn. As maximum it generates 420W (Generators 12V) at 29kn.
The mast supports are developed for vibration absorption and consequent noise reduction.
For further information, contact us. We are available to assist you with your project.
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How to Install a Wind Generator on a Sailboat
The marine wind generator is, without a doubt, one of the most effective ways of charging your boat's batteries while you are away from the electricity grid. One of the most important things to take into account when selecting a marine wind generator for your boat is the installation process.
As a sailor, you'll most definitely rely on electricity in running various parts of your boat. In addition to the power needed to run the electronics that are of great importance for navigation and safety, electricity is essential for lighting, refrigeration, and running other appliances. But because you always sail deep in the water where there's no electricity, you need another source of power that we can use to charge the boat's batteries while we are out there on the water. This is where the wind comes in handy. You're already using wind to propel your sailboat, so it makes sense to use the very same wind to charge your boat's batteries and ensure that every part of your boat runs smoothly and meets your sailing needs.
Marine wind generators are more and more becoming a standard feature on sailboats. They are a great source of renewable energy and one of the most important things is to learn how to install a wind generator on a sailboat. Installing a wind generator on a sailboat is a process that must start with an assessment of the sailboat's power needs. Knowing the amount of power that your boat will consume in 24 hours will at least give you a rough idea of the size of the battery bank you require and how many amps your charging devices should produce.
You should also know where and how to install the wind generator's system. This will, of course, directly affect how well the wind generator's turbine converts the wind power into electrical energy. You should also ensure that the amount of battery storage available on your sailboat, as well as the controls available, is efficient in ensuring that the generated power doesn't go to waste.
In this article, we'll take a comprehensive look at how to install a wind generator on a sailboat and everything else you need to ensure that your wind generator works properly and efficiently.
Table of contents
The Importance of Using a Wind Generator on a Sailboat
Even though wind generators may not be of much help off the wind, they are increasingly becoming more appealing to sailors looking for an alternative source or extra power for their sailboats. The fact that they rely on the same wind that you use to move from one point to the other makes them quite a hit. Additionally, today's marine wind generators have undergone continuous improvement over the last few decades and are now well proven and quite reliable. This is exactly why wind generators are still common in sailing despite the advent of solar panels and hydro generators.
A wind generator will keep your boat's batteries charged at all times as long as there's wind. It doesn't matter whether you're at the port or out on the water, the wind generator will continuously pump out power even on cloudy days. That's not all; wind generators are cost-effective since they're maintenance-free and do not need any launch or recovery. More importantly, there are very powerful wind generator units that can produce more than 400 units of power, which is just enough to keep a fairly medium sailboat running and operating for 24 hours.
But just like with anything that has advantages, there must be some disadvantages. One of the most noticeable downsides of relying on a wind generator is that the power produced by the generator can significantly reduce if there's no wind. Most wind generators can manage to produce about 200 watts of power in wind speeds of 20 knots but things can even become worse when you're anchored at the port since winds are generally very low at the ports. As such, you may need an additional source of power such as solar panels, especially if your sailboat has heavy power requirements.
Installing a Wind Generator on a Sailboat
Installing a wind generator on your boat's charge system is a serious process that requires careful planning and attention. As we noted earlier, this process should start by first assessing your boat's power needs. You should be able to determine the amount of power that your boat and its appliances need to consume in at least 24 hours. This will certainly give you a clue of what you require.
The general idea is to ensure that you don't have to keep your boat's engine running so as to keep your batteries charged because this might not be enough in running your boat's appliances. In most cases, a boat's power needs are modest. Well, the boat generally needs power for lighting, running the navigation and safety equipment, refrigeration, and powering a stereo, if any.
The Equipment Required
One of the most important pieces of equipment required when installing a wind generator on your sailboat is the turbine. Generally speaking, the turbine should be functional at both medium and high wind speeds. You have to, however, keep in mind that even the biggest wind generator won't produce much power if the wind speed is below 8 knots. The turbine should be tough, reliable, and quiet. You certainly do not want a turbine that sounds like an approaching helicopter as this can be so annoying.
Given that early models are very noisy, three-bladed rotors are becoming more and more popular. They are smartly designed with CAD blades that significantly reduce the whistling and thrumming sounds that occur at the tips of the blades. These modern rotors are also designed to be more efficient and reduce friction through the use of permanent magnet alternators that allow speeds of the blades to be reduced, thereby reducing the noise levels considerably.
With that in mind, some of the best wind generators to go for include Air breeze, Eclectic Energy, Leading Edge, Rutland, Silentwind, and Superwind.
The Aerodynamics of Turbine Blades
Ensuring that power moves from the turbine's alternator and safely into your batteries may seem like a simple process. There are, however, aerodynamics involved and it only makes sense if you understand how they work.
In terms of the blades, they operate based on a similar principle or a plane's wing. There may be some differences but they are generally designed to produce optimum output. This means that the turbine blades should not go too fast as it can mitigate the wind generator's efficiency. The same applies if it is too slow. In essence, it works like a car gear so having very high or low gear can be inefficient. The idea here is that the airflow will become unstable if the blades are at very high speeds.
The best way to solve this problem is to rely on the "tip speed ratio". This technically describes whether or not the blade tips are moving faster than the actual wind speed. As such, the blade tips should be moving at 320 knots on 20-knot wind speed but there should also be the survival speed, which is just the right wind speed that is needed to produce the right amount of power to sustain your sailing needs.
The Amount of Power that Your Boat Needs
It's of great importance to budget for the amount of power to ensure that every facet of your sailboat is functioning properly. Of course, there are obvious appliances such as plotters, interior lights, and fridges. There are also navigation lights, engine monitors, entertainment systems, pumps, watermakers , gas alarms, electric winches, hydraulics, and many other things. You should also make a good margin that will have you covered if there's an emergency.
You should also consider other things such as air conditioning (though this may need fuel) as well as the type of sailing you're planning to do. Will you be sailing upwind or downwind? Well, such minute factors can significantly affect the amount of power that your boat needs. It is, therefore, crucial to determine a clear and accurate idea of how much power you need to generate to perfectly operate every part of your boat.
Mounting the Wind Generator
One of the most challenging things that revolve around how to install a wind generator on a sailboat is where to mount it. Location is very fundamental and can either positively or negatively affect how your wind generator operates.
The golden rule that governs the position of the wind generator is quite straightforward. It should be mounted in an area of the vessel where there will be no interruption of the flow of air or wind to the turbine from all directions. Generally, the wind generator is mounted on the boat's mast with two stays. You can easily raise or lower the wind generator if it is installed with a pivoting base. But if it is installed on a fixed mast, it can cause difficulty if you want to secure the wind generator when there's an impending storm.
And because the main aim is to optimize the output from a wind generator, there are a few important things to do. The most important thing is to ensure that it is very stable. This is because even a slight rolling or pitching might just be enough to rotate it away from the wind. The wind generator also requires clean air from all directions and as much as possible.
As you can see, these two principles seem to be at loggerheads given that you'll get more wind speed as you go higher but this may affect the stability of the turbines. With this in mind, mounting the wind generator on mizzen masts can be a good option but choosing to mount the turbine just above the cockpit is an even better option. The idea here is that it will be a lot easier to manually control the turbine if all other options of braking it doesn't work. Again, installing and maintaining the turbine overhead the cockpit is a lot easier than when it is mounted on the mizzen masts.
That's not all; mounting the turbine over the cockpit also means that the cables need to transport power from the turbine to the alternator are much shorter. This means that the wire diameter will be a lot smaller without necessarily affecting the voltage. The fact that the voltage can drop if the wind generator is mounted up higher on the masts should be particularly important.
This is because it can affect the overall performance of the wind generator and the power it produces and this means that the power supplied to your sailboat might just fall short. Again, a considerable amount of weight can be reduced if the turbine is mounted just over the cockpit. The cables will be reduced and the overall stability of the wind generator will be increased if it is installed overhead the cockpit.
Of course, you'll also have to install the electrics that come with the wind generator unit. For example, there's the controller that is used in regulating the power supply from the turbine, as well as the dump load resistor that is essential in absorbing any excessive current that may be produced when the batteries are fully charged. There's also an inline stop switch, which is essential in turning off the unit when it's not in use. Well, most of these installations are straightforward and are generally shown in the unit's installation guide.
Assembling the turbine should also be a walk in the park. Units do come with fasteners and are accompanied by installation instructions that are easy to understand and follow, thereby making the installation and assembling process a breeze.
So if you've decided to install the wind generator overhead the cockpit, which is our best location, you must find a perfectly sized pipe and mount it solidly at any corner of the stern. You have to ensure that you support the pole with at least some diagonal tubes so that it doesn't swivel. And if you are planning for an off voyage escapade, using the hose clamps to secure the main pole might not be the wise thing to do. This is because they'll most likely snap and twist as a result of constant vibration and miles of hard sailing.
Securing Your Boat's Wind Generator
With that in mind, you should also be prudent enough to secure the wind generator if there's a pending storm. As a sailor, you should be prudent, stay alert, and prepared in case there's a storm. The most important thing is to know the dynamic of the wind generator and how to apply electric brakes or even have the turbines lowered when there is a storm.
You can do this if the wind speeds are more than 15mph. This is of great importance in ensuring that the wind generator does not overheat or the blades do not break. You can also choose to remove the wind generator altogether and store it in a safe place.
All in all, the importance of having a wind generator on your sailboat as an alternative energy source can never be downplayed. This is a great source of renewable energy that will have your boat working perfectly well even if you are sailing in some of the remotest corners of the world. Just know how to install the wind generator, have it maintained, and protected when there's a pending storm and you'll be good to go.
Until next time, happy Sailing!
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Daniel Wade
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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Marine Wind Generators: Wind Turbines for Boats (Guide)
Aug 26, 2020.
Out on the open water, there are essentially three great options for generating renewable electricity: wind, hydro and solar. If you are looking for some assistance on how to continuously produce electricity on your boat, then you’ve come to the right place.
In the Solar Us Shop, we’ve named ourselves after the process of generating energy through sunlight and continue to focus on offering high quality solar products. However, we are also firm believers in wind power as well, especially when it comes to marine applications.
We are constantly asked questions about marine wind generators, so we figured that it may be about time to put together something as a helpful resource for those in any stage of the installation process. In this article, we will outline why wind turbines are great for boats, detail some instructions on how to set up a marine wind generator, and address some of the most frequently asked questions on the subject.
Why Use Wind Power for Marine Generators?
For sailing purists, the idea of using the wind to power a boat is almost second nature. In addition to navigating with the hoisted sail, wind turbines can also capture and generate usable electricity onboard. Installing a wind turbine and storage system opens the doors to charging:
- Phones, Laptops, etc.
- GPS Systems
- Speakers and Entertainment
- Lights (Interior and Exterior)
- Kitchen Appliances
- SCADA Systems
- Telecom Systems
- Cathodic Protection
Compared to solar energy, wind power has a few distinct advantages for marine applications. These include the ability to generate electricity when the sun is down or on a partially cloudy day. Of course, solar energy can still be a great source of electricity and is often used in conjunction with wind turbines for boats.
Marine Wind Generator System: the Components
Marine wind generators can be used to convert wind energy to electric power while completely off of the grid and on the water. Although they may look intimidating to first time users, marine wind generators are actually extremely simple. In general they are made up of:
- A Wind Turbine
- A Turbine Tower / Mounting System
- A Regulator or Charge Controller
- An Inverter (optional)
Marine wind generators are sometimes built as standalone units or as a part of a boat’s existing electrical system. By installing a green energy production system to your boat’s existing battery, less parts need to be acquired and it may be easier overall to run your necessary electricity components.
On the other hand, a wind turbine kit can be installed with all of the parts temporarily or permanently installed on the boat. Portable kits may cost a bit extra , but can be used on shore as well.
Do I need an inverter for my marine wind generator?
If you are planning to power any AC electronics (traditional 2-prong or 3-prong wall outlets), then you will need to install an inverter. Within a battery, electricity is stored in DC power. For most people, DC power is often used in the “cigarette lighter” of the 12V DC power outlet in a vehicle. In order to convert that energy to AC power (which is what is primarily used in homes) an inverter must be installed.
For boats that already have a battery and wall outlets, then it is very likely that an inverter has already been installed. Inverters can be expensive and can be avoided if there is already one aboard, or if all of your electronics can run on DC power.
What is a regulator for marine wind generators?
A regulator, which is also commonly known as a charge controller, is used to regulate the amount of charge generated by a wind turbine and sent to a battery. Regulators are necessary in that they limit a battery from being charged past its potential capacity. Overcharging batteries can lead to permanent damage which require component replacement.
There are two types of regulators: Pulse Width Modulation (PWM) and Maximum Point Power Tracking (MPPT). PWM technology is older and generally cheaper to adopt. MPPT charge controllers are generally seen as the more premium and efficient option. With that said, MPPT charging is much more valued in photovoltaic solar applications than in wind generation.
Many wind turbines come with a regulator pre-installed in the system . These are great because they are purposefully matched with the expected electricity generation of the wind turbine in which they are installed. If you purchase a wind turbine without a regulator, this can be purchased separately. Here, attention to detail is important for choosing the right regulator for your specific green energy system.
What size wire should I use for my marine wind turbine?
Above all, one of the most common mistakes to make when installing a marine wind turbine is using the wrong wire size. Think of your wires as pipes in which water flows, you will want to have a large enough radius so that everything can flow smoothly. With that said, larger gauge wire can be expensive, so you will not want to waste money on premium components that do not actually increase efficiency.
Whenever you purchase your wind turbine, check the manual to see if there is a recommended wire gauge. If there is not, consider consulting an electrician. However, what is also important to remember is that less wiring means less loss of potential electricity. No matter your setup, your electricity generation and storage efficiency will increase as the length of the wire through which it travels decreases.
How to Choose the Best Wind Turbine for your Boat
As an ever-developing technology, choosing the best wind turbine for your boat can be a difficult road to travel down. There are many things to consider when analyzing your options, with many different price points to purchase from. Above all, here are the factors that will influence your decisions as to what your best wind turbine purchase will be
- Maximum Power
- Operating Noise
- Number of Blades
- Tip Speed Ratio
- Regulator Inclusion
- Monitoring Technology
- Ease of Use & Installation
So clearly, there is a lot to mull over here. We’ll make it easy for you by recommending what we believe to be the absolute best marine wind turbine. The Primus Wind Power Air X may in fact be the best overall wind turbine for marine wind generators. Here’s why it’s ideal for nearly every boat:
- Durable for speeds of up to 110 mph
- Highly reputable manufacturer
- Alternator Included
- Comes with a five year warranty
- Very lightweight, easy to install
- Works well in conjunction with solar and battery storage
Essentially, we believe that the tough and lightweight (5.9 lbs) Primus Wind Power Air X is one of the best wind turbines for marine wind generators. If you are interested in exploring your options a bit further , feel free to explore additional wind turbines on our website.
How to Install a Wind Turbines on a Boat
In order to begin generating electricity with a wind turbine, it must be installed and wired to the rest of the system components. In marine applications, some wind turbines will come with all of the necessary components for installation, while others must be sourced separately. Although an expert can certainly do a good job, many wind turbines are becoming more user friendly and can be installed by any DIY enthusiast.
How to Mount a Marine Wind Turbine
In order to install a marine wind turbine, you must acquire lightweight and durable materials that can withstand heavy winds and exposed weather conditions. There are many marine wind turbine tower kits that have been specially designed to be easily installed on a boat. For the absolute best results, you should ensure that your marine wind turbine:
- Can be titled down or easily accessed
- Installed with self-locking nuts
- Is made of weather resistant materials
- Is adjustable and secure
Of course, there are many different shapes and sizes of boats in the world's lakes and oceans. For those who need to hoist the turbine a little bit higher, there are a few solutions. For one, many boat owners will choose to acquire additional turbine mounting poles to install a wind turbine a bit higher.
Where should I install a wind turbine for a boat?
Although every renewable energy system is created on an individual case to case basis, in general, the best place to install a wind turbine on a boat is overhead, above the cockpit. Obviously, the turbine should be placed high enough so that it is out of the way and able to receive a lot of direct wind. With this in mind, installing above the cockpit will generally lead to the least amount of hassle if you need to access, remove, or repair your turbine.
Alternatively, there are many boats out there with full functional wind turbines mounted to the stern or bow of a ship. Whereas direct overhead installation may be the best for precarious watercrafts, large ships like catamarans and pontoon boats may not need to incorporate weight or balance as much as others. What’s important is to mount your turbine safely so that it can operate and be easily accessed.
Installing the Rest of the Components
Once your marine wind turbine is securely in place, then it is time to install the rest of the components. To start, take a look at the wiring diagrams for your wind turbine. Most modern systems should be pretty straightforward, with simple positive and negative terminals connecting to your systems battery. In a marine application however, every component must be not only securely installed , but also waterproof.
If you are not comfortable with the wiring and mounting of your marine wind generator, do not hesitate to contact a professional to help you install the system. By working with an expert, you can also easily have safety features such as an emergency shut off switch installed in line with your electricity generator.
Ultimately, if you spend a lot of time out on the water, you may want to consider a marine wind generator for producing a little extra electricity. Whether you use a wind turbine in conjunction with a solar panel or not, there is ample opportunity to generate usable, and renewable electricity while aboard your boat.
Clive Yarwood says...
I own a Hanse 575 Sailing Yacht and would like to consider both wind and solar power, I replaced my house batteries last year with 4 × 160amp hour batteries, i am considering an ocean passage and with a water maker will need to generate enough electricity to supply the boat for up to 6 weeks
On July 19, 2023
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Best Wind Generators For Sailboats
Wind generators for sailboats are a great way to power your boat while at sea. But what are the best wind generators for sailboats?
October 17, 2023
This article may contain affiliate links where we earn a commission from qualifying purchases.
The best wind generators are designed specifically to meet the demands of sailors. These include features like high strength, small size, lightweight, and corrosion resistance. Silentwind, MarineKinetix, Superwind, Rutland, and Automaxx build the best wind generators for sailboats.
The wind can be a sailor's best friend or worst enemy. When the wind is blowing, sailors love it because they can harness its power and use it to steer their boat. But when the wind suddenly dies down, the boat will lose momentum and may even drift off course without any way of correcting for this loss in speed. This is where a good-quality wind generator comes into play!
Our experts took the liberty of testing and reviewing the best wind generators for sailboats. After hours of testing, we were able to compile a list of the best wind generators for sailboats that are available on the market today.
Table of Contents
1. MarineKinetix MK4+
The Marine Kinetix MK4+ wind generator is a top-of-the-line device that's perfect for boats and RVs. It features a built-in regulator that ensures your batteries are always fully charged, while its advanced cooling system keeps the unit running smoothly even in harsh weather conditions.
The Marine Kinetix MK4+ is a carbon laminated blade turbine. This type of rotor design results in enhanced airfoil aerodynamics that can dramatically improve power generation compared to older designs. It features an ultra-lightweight composite hub and blades, making it exceptionally durable even when exposed to corrosive saltwater or when run through heavy winds or storms.
The MarineKinetix is one of the most popular marine wind generators today due to its cutting-edge technology and soundless design. The MarineKinetix is the new standard for anchorages across the world. It has a 44 percent larger swept area than other marine wind generators, allowing it to collect more power and ensuring that all of that power reaches your battery bank safely.
The MarineKinetix MK4+ is a hands-off, no-fuss wind energy production system specially designed for use in the sea. The aerodynamic and structural features of this high-output, low startup speed system are based on the finest of European wind science. It also has world-class aerodynamic efficiency, thanks to its carbon-filled aero-acoustic rotor blades, which are designed to minimize noise while maximizing airflow.
Furthermore, the MK4+ is an incredibly quiet wind generator; we've never heard one quieter. It has a noise level of only 35 decibels at 17 feet in 10 knots of wind. This makes it perfect for use in small anchorages and crowded harbors.
The Marine Kinetix MK4+ is also one the lightest wind generator on the market, weighing in at only 17 pounds. It can be easily transported and is perfect for use with sailboats, powerboats, and RVs.
Overall, the Marine Kinetix MK4+ is an incredible wind generator and a great choice for any boat or RV. If you're looking for a quality, durable, and quiet wind turbine, the Marine Kinetix MK4+ is definitely the one for you.
- Rated power output: 450 watts
- Rated voltage: 12/24/48V
- No of blades: 3
- Rotor Speed: 500-1000 rpm
- Weight: 17 lbs
- Ultra-lightweight and durable construction
- Easy installation
- Carbon-laminated blades for enhanced power generation
- No noise at all!
- Three-year warranty
- Not the most powerful turbine around
2. Silentwind 400 Plus
The Silentwind 400 plus is a wind turbine that has been designed for use in both marine and land-based applications. It is a reliable and efficient turbine that can provide power for boats, RVs, cabins, and other applications where a reliable source of energy is needed.
Compared to its predecessors, the new Silentwind 400 plus is equipped with high-duty carbon laminated blades. The company has dubbed these 'Silent Power Blades.' Silent wind claims that these blades provide improved wind monitoring and faster startup times than last generation's 400. These have been tested to work at turbulent speeds, and the generator is IP54 classified as waterproof/weatherproof, which means it will handle high humidity and moderate rain without damage.
According to reviews, the 400 plus has a starting speed of 4.2 knots and a max output of 425W at a 30% lower speed than other comparable generators. This is mainly due to the Silent Power Blades, which create less resistance to the wind, along with a three-phase triple alloy magnet generator
Because this turbine uses neodymium magnets, it can be used in any weather condition, unlike generators whose magnets will become demagnetized from the effects of wetness. The 400 Plus also has a 1-year warranty.
The turbine's blades are easy to access for cleaning or replacement without needing to remove the entire generator. This is an extremely valuable feature as it allows units to remain ready for operation at all times, even if they need servicing. The company claims that this generator also operates more quietly than other models on the market due to its specially designed 'silent power' blades. In addition, this model does not require oiling like some competitor products, which reduces both short-term maintenance needs and long-term expenses.
In terms of functionality, this generator can provide energy in most weather conditions due to its high-performance blades, advanced alloy magnets, and high-efficiency circuitry. It also features an easy-access design that allows for quick maintenance, which is invaluable when power needs are critical.
The Silentwind 400 plus is rated for 420, 450, and 500 watts. Its available in 12, 24, and 48V models. The 12V model is the most popular, with a weight of only 25 pounds. The turbine has an adjustable speed range of 550 to 1700 rpm, which means it can start at very low wind speeds.
Furthermore, the Silentwind 400 plus also has a built-in regulator that protects against overcharging and discharging. It is also equipped with an LED display that shows the turbine's speed, voltage, and amps being generated. This allows the user to make necessary adjustments to ensure maximum efficiency.
The only drawback we could find was that the company does not currently have a distributor in the United States. However, Silentwind has stated that they are working on this and hope to have a U.S. distributor soon. Also, due to range limitations, the Bluetooth feature is virtually useless in the open ocean.
Overall, the Silentwind 400 plus is an efficient and well-made wind turbine that can provide power for various applications. It is reliable, easy to use, and has been tested at hurricane speeds. It is a great choice for anyone looking for a dependable source of energy for their sailboats.
- Rated power output: 420/450/500 watts
- Rotor Speed: 550-1700 rpm
- Generator weight: 15 lbs
- High-duty carbon laminated blades
- Quiet operation
- Minimal maintenance required
- Adjustable speed range
- Built-in regulator
- U.S. distributor not yet available
- Bluetooth feature useless in the open ocean
3. Rutland 1200 Wind Turbine
The Rutland 1200 Wind Turbine is an efficient and reliable model that's capable of powering anything from sailboats to recreational vehicles. It has a durable, white epoxy-encapsulated frame, carbon fiber blades, and sealed bearings for consistent power generation. The turbine works best in light-to-medium wind conditions but can also charge 12 V batteries on larger vessels or RVs.
At 500 watts, the Rutland 1200 is a medium-sized turbine that packs a powerful punch without taking up too much room. The turbine features a sleek and modern design that blends in perfectly with any sailboat or RV.
The Rutland 1200 is a top-of-the-line wind turbine that's built to last. It has a sturdy frame, carbon fiber blades, and sealed bearings that can withstand even the harshest marine environment. The turbine also features a smart controller that prevents overcharging and protects your batteries from damage.
Best of all, this turbine is easy to install. The manufacturer includes all the necessary hardware, so you can simply attach it to your mast. It also comes with an emergency tiller control that allows you to harness power when needed during an emergency situation, and the design of the blades ensures that the wind is captured smoothly and efficiently.
The Rutland 1200 is a top-of-the-line wind turbine that's built to last. It has a sturdy frame, carbon fiber blades, and sealed bearings that can withstand even the harshest marine environments. The turbine also features a smart controller that prevents overcharging and protects your batteries from damage.
According to some users, the rotor was too small for larger boats or RVs and didn't generate enough power to be useful in high winds. Others said the blades were too noisy and made too much vibration when in use. It's also relatively expensive, although the price tag is to be expected considering the brand name and its capabilities.
Overall, this turbine is a great option for anyone who's looking to take their boat or RV off the grid. It has a durable design that can withstand harsh conditions, easy installation, and smooth operation. It's an excellent choice for those who have been looking to harness wind power but don't want to spend too much money on a DIY kit.
- Rated power output: 500 watts
- Rated Voltage: 24 V
- Blade diameter: 48 inches
- Weight: 17.2 lbs
- Durable and well-built construction
- Highly portable – easy to install and uninstall
- Too small for larger vessels or RVs
- Makes too much vibration when in use
4. Superwind 350
The Superwind 350 is a small, lightweight wind turbine that is perfect for sailboats. When in operation, it can charge various batteries, including the 12V battery found in most sailboats. This unit has a power output of 350 watts and is equipped with an LED display that shows how much energy is being generated.
The Superwind 350 also comes equipped with Auto-Feathering Overspeed-Avoidance System. In layman terms, this system prevents the turbine from spinning too fast and damaging the blades. It does this by sensing when the wind speed is too high and then automatically slowing down the turbine. This system is especially valuable for sailors who often find themselves in high winds and can prevent costly damage to the turbine.
The blades' speed decreases as the wind speed rise to 25 knots; they start "feathering" (dumping air) to be less efficient and slower. However, as the wind dies down, the blades re-pitch, becoming more effective. In comparison to other comparable products, this action delivers a steady stream of charging current to the batteries without shutting down to avoid overcharging.
The Superwind 350 can also run in combination with solar panels and traditional diesel generators, making it the perfect choice for sailors who charge their batteries with multiple sources throughout the day. In addition, this turbine can be used in conjunction with a voltage-sensitive relay to automatically start and stop a generator based on the battery's state of charge.
Furthermore, The Superwind generator family also employs a brushless A/C stator to minimize noise and radio interference while the unit is generating power. This is a great feature for sailors who want to run power-intensive electronics such as refrigerators and air conditioners.
The only drawback we could find was that it's not the quietest. This could potentially cause issues, especially if you're trying to sleep below deck.
Overall, the Superwind 350 is a great choice for sailboats looking for an efficient and reliable wind turbine. It is easy to use and comes equipped with various safety features. It is also compatible with a variety of battery types and solar panels.
- Rated power output: 350 watts
- Rotor Speed: 450-1250 rpm
- Weight: 24 lbs
- Automatic speed regulation system (feathering and re-pitching) prevents damage to the turbine.
- Compatible with solar panels and traditional generators
- Not the quietest turbine on the market
5. AutoMaxx DB-400 Wind Turbine
AutoMaxx DB-400 is a great and affordable choice for any boat or RV owner looking to harness the power of the wind. It features large blades that allow it to generate more energy than most other marine turbines out there, while its lightweight and compact design make it easy to transport and store when not in use.
The AutoMaxx DB-400 is an expertly designed and efficiently engineered model that's capable of powering any vessel or recreational vehicle. It has a sleek and ergonomically designed white rotor, bearings, and hub that ensure fast wind speed increases for optimum energy production. The turbine is also made from durable, high-quality materials that can withstand harsh marine environments.
The AutoMaxx DB-400 wind turbine installs easily and quickly on any boat or RV, and it comes with all the necessary mounting hardware. Once installed, it's easy to use and requires minimal maintenance. The turbine has been designed for 12 V systems, and it's capable of producing up to 400 watts of power.
When it comes to performance, the AutoMaxx DB-400 Wind Turbine really shines. The turbine has been tested in some of the worst wind conditions and still produces more than enough power to keep your batteries charged. It has a sturdy, all-weather design that can easily handle heavy winds and rough conditions. It's also extremely quiet and vibration-free, making it the perfect choice for any boat or RV owner looking to harness the power of wind energy.
According to a few users, the devices didn't spin at the stated cut-in speed and generated less power than expected, although most people said they worked as predicted. It's tough to tell whether these flaws are due to poor installation, miscommunication between vendors and consumers, or unrealistic expectations. It's always a good idea to put your device through its paces when it arrives to ensure that it's functioning as intended.
Overall, the AutoMaxx DB-400 Wind Turbine is an efficient and reliable model that comes at a great price. If you're looking to get started with wind energy on your boat or RV but don't want to spend too much, this turbine is definitely the best choice for you.
- Rated power output: 400 watts
- Rated voltage: 12 V
- Sturdy and durable construction
- Lightweight and compact design
- Budget-friendly
- Poor performance in high winds
- Not the most efficient in its class
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Visiting Russia - Nalchik, Capital of Kabardino-Balkaria
By Koryo Tours
Nalchik, capital of Kabardino-Balkaria
Visiting Russia – Nalchik
Yoshkar-ola | cheboksary | astrakhan | elista | stalingrad (volograd) | abakan | nalchik | validkavkaz | makhachkala | grozny.
Nalchik is a small city of around 240,000 people and serves as the capital of Kabardino-Balkaria, one of the lesser-known republics spread across the beautiful North Caucasus area of Russia, the mountain range that separates the former soviet states of Georgia, Armenia, and Azerbaijan from the Russian Federation.
This region has incredible diversity in ethnic groups and is a melting pot at the edge of empire. While there have been civilisations in the Caucasus for millennia Nalchik as a city is only a century old, having been a Russian fort since 1724. Today’s Nalchik is a mostly peaceful and relaxing place, being in the foothills of the mountains it has many areas of great beauty and multiple sanatoria for people looking to take the waters, over the last century it has certainly had its share of turbulence though, being occupied by Romanian troops fighting on the side of the Nazis, who embarked on an effort to exterminate the ancient community of Mountain Jews in the area (unsuccessfully), plus a 2005 Islamic militant attack on Russian security forces.
These days Nalchik is known as a clean city, a place for relaxing, and the starting point of expeditions to summit Mt. Elbrus, the tallest mountain in Europe, which lies within Kabardino-Balkaria.
Kabardians make up the largest ethnic group at just under 50% of the city’s population, followed by Russians, Balkars, other Caucasian nationalities as well as Ukrainians, Mountain Jews still live in the area but in very small numbers now, most having emigrated to Israel.
Arriving/Departing
Nalchik Airport (NAL) is a small one but is fully functional for getting in and out, usually the foreigners arriving here will be mountaineers heading for Elbrus.
The Airport is only 3km from the city centre so you could even walk into town from here, otherwise, there are taxis and marshrutkas waiting for arrivals. Flights arrive only from Moscow and St. Petersburg usually, the Caucasus has other larger airports for other international flights (such as those to Sochi). Nalchik has a railway station, dating from 1915, with links to Moscow and across the Caucasus. A good option for travelling around the region in a relaxing manner (usually slower than taking a marshrutka between cities though) For getting around inside Nalchik there are public buses all over the place, easy to use and very cheap. Otherwise most of the centre is very walkable, the main ‘high street’ is Lenin Avenue, which runs for several km through the centre of the city.
Concord Square
The centre of Nalchik and a good place to start a walking tour of the city, with the Kabardino-Balkaria parliament building on one side and Lenin stands at the other, fountains in the middle and Lenin Avenue cutting through the square
Religious Buildings
The central buildings of the main religions practised in Nalchik are both fine examples of their respective architectural styles; the Central Mosque and the Cathedral of Mary Magdalene are both worth visiting. Dress codes apply.
Not actually in Nalchik, but only 50km or so away so the city is the ideal base for starting an expedition. This is Europe’s highest mountain and a dormant volcano. There are cable car/chairlift options to get t the top for those who don’t wish to do it the hard way. It is possible to get up and down this mountain n a single day, making it certainly the simplest of the 7 continental highest peaks to climb.
Museum of the Kabardino-Balkar Republic
Great for explaining where you are and the history of the area. Mostly in Russian only though and does tend to assume some knowledge in advance. Still a good stop to get some intro into the complex history of this city and area in general.
Atazhukin Garden
A large park complex running for more than 2km along the eastern side of the city, alongside the Nalchik River. A very pleasant place with so much to see and do. The basic Nalchik Zoo is here, walking trails, restaurants and cafes, theatres, a very retro funfair, and a rickety but reliable cable car running up to a lovely viewpoint to see over the city and out to Mt. Elbrus.
Topped by a restaurant building built in the shape of a Kabardian warrior. An excellent few hours can be spent exploring this park and mingling with the locals of all ages who do their relaxing here.
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Travel Tips to Kabardino-Balkaria: More than Mt. Elbrus!
If you’ve traveled to the North Caucasus before, there is a good chance you’ve already been to Kabardino-Balkaria, and you didn’t even know it! Kabardino-Balkaria lies in the center of the North Caucasus region, is home to Mt. Elbrus, but more than that is a treasure chest of travel possibilities. Here is our guide to traveling through the republic of Kabardino-Balkaria, or 9 travel tips to this beautiful land:
1. How do I get there?
Kabardino-Balkaria hosts a large number of both foreign and Russian travelers every year, and has an improving infrastructure able to handle the incoming masses. Let’s start with the obvious. You might be a mountain climber or skier coming to enjoy the slopes of Mt. Elbrus. That means you’re likely arriving on an airplane to Russia. Here are your travel options:
A. Plane – We advise you fly into the Mineralni Vodi (MRV) airport in the Stavropol Region, which is about 45 minutes from the border of Kabardino-Balkaria. MRV is the largest airport in the North Caucasus, and has daily direct flights to and from all 3 airpots in Moscow (SVO, DME, and VKO), direct flights from St. Petersburg, and several international flight routes as well, including from Istanbul, Dubai, Greece, Tel Aviv, and Bishkek. The MRV airport has a growing infrastructure and is the most obvious choice to fly into if going to Elbrus. From MRV, it’s a 2 hr. drive to Nalchik, and a 3.5 hr. drive to Mt. Elbrus.
That being said, the capital of Kabardino-Balkaria, Nalchik (NAL), also has a small regional airport with a daily flight to/from Moscow as well as weekly flights to Istanbul. As is to be expected in most smaller, regional airports around Russia, the service standard at a small airport like this will be minimal. As a result, we recommend you flying in and out of MRV if able. It’s a 2 hr. drive to Elbrus from Nalchik. You can also fly into other regional airports which are 2 hrs. from Nalchik, such as OGZ in North Ossetia (Vladikavkaz) or IGT in Ingushetia (Magas).
B. Car/Public Transport – If you have a car, are using a taxi, or are hitch-hiking your way to Kabardino-Balkaria, the region is accessible by a variety of roads and vehicles. A major Russian federal highway E50 runs through Pyatigorsk into Kabardino-Balkaria, and can take you towards Mt. Elbrus, Nalchik, and deeper into the North Caucasus. There are daily mini-buses, or “marshrutkas”, that travel to Nalchik from Pyatigorsk, Vladikavkaz, Grozny, and Magas, if you’re coming from a neighboring republic. From the main Nalchik bus station, there is a marshrutka that goes to Terskol (i.e. Mt. Elbrus) daily around 12:30 pm; for that matter, marshrutkas run daily into every valley of this beautiful republic. For the seasoned international traveler, you can drive from the country of Georgia up the famed “Georgian Military Highway” through the heart of the Caucasus Mountains, cross the border into Russia at the “Verkhni Lars” border stop, and be in Nalchik in about 2.5 hours as well.
Anyone traveling on their own should download the “Yandex” taxi app, which is Russia’s version of Uber, and has a very user-friendly app with affordable prices. In smaller villages/towns where Yandex’s service doesn’t reach, just ask a local and they’ll direct you to a friend or relative who can taxi you where you need to go!
C. Train – Kabardino-Balkaria is also very accessible by the famous cross-country Russian train system if that’s your preferred method of travel. Almost all trains to the North Caucasus pass through Mineralni Vodi in the Stavropol region to the north, so make sure wherever you are coming from, Mineralni Vodi is one of the stops. Despite Nalchik having a train station, the city is about 45 minutes from the main railway route that runs diagonal through the North Caucasus, and as a result it’s a bit convoluted to get a train directly to Nalchik. That being said, the town Prokhladni is a regular stop on trains going to/coming from Baku, Makhachkala, Grozny, Nazran, and Vladikavkaz, so you can always hop off there and find your way by public transport or taxi.
2. What are the best places to stay?
This list could get exhaustive, fast. 🙂 Let’s first look at an overview of the republic’s geography, followed by hotel recommendations:
A. Nalchik – This is the capital city of Kabardino-Balkaria, with a population of around 250,000. Nalchik is growing and new, modern hotels are being built regularly. Here are some of our recommendations:
-Modern and comfortable: Azimut , Butik Otel
-Budget with less frills: Hotel Rossia , Korona
You could comfortably spend a week in Nalchik, while doing day trips into Kabardino-Balkaria’s beautiful mountain valleys.
B. Baksan Valley – This is the most traveled road in Kabardino-Balkaria, the road to Mt. Elbrus. If you have questions about its safety because of travel warnings, please see our detailed blog here of the drive to erase any doubts or fears. Needless to say, because of the draw of Mt. Elbrus, there are a huge variety of lodging options at the end of this valley, from 4-star to mid-range to budget to hostel. Here are just a few we’ll recommend from our experience:
-Modern and comfortable 4-star-ish: Azau Star , Kristall 139
-Budget with less frills 3-star-ish: Laguna , Povorot
If you’re a mountain climber with your sites set on the summit of Elbrus, you’ll have to spend at least 3-4 nights at Elbrus’s famous base camp at 13,000 feet. The “barrel huts” are not easy to book directly with, and we highly recommend you do your climb (and hence, have your bookings handled) through a trusted climbing company. Here are two shelters at base camp we recommend:
-Modern and comfortable: Leaprus
-Budget with less frills: Heart of Elbrus Lodge
If you’re interested in climbing Mt. Elbrus and staying in these barrel huts, click here to see our climbing itineraries, pricing, and group dates.
C. Chegem Valley – Chegem Valley is the adjacent valley to Elbrus’s Baksan Valley, and is famous for its beautiful waterfalls as well as being Russia’s top paragliding location. The “ Paradrome ” has modest accommodations for those wanting to get to know this beautiful valley for a longer period of time.
D. Upper Balkaria, or Cherek Valley – This is another beautiful mountain gorge not too far from Nalchik. There is an authentic lodging complex in Upper Balkaria called Tau-El, with amazing local food for meals as well.
E. Border Zone lodging – Several of Kabardino-Balkaria’s mountain gorges run into the border zone with neighboring country Georgia, i.e. an area that foreigners cannot enter without a special permit from the local government (often taking 2 months to receive). There is a famous mountaineering lodge in Bezengi Valley, where several generations of Russian mountain climbers have honed their craft in the Caucasus Mountains. Perpendicular to Baksan Valley (about 25 minutes from the base of Mt. Elbrus) is Adyr-Suu Valley, where there is a lodge for back-country skiers to stay, while trying their hands (and feet!) on the untouched snow of that valley. Both these valleys require border permits for foreigners, but are possible to access for the more adventurous!
3. Top cities to visit?
Most locals would agree that Nalchik is the main city of significance to visit in Kabardino-Balkaria, but let’s be honest, even more would say, “Just go to the mountains!” Tirnauz is the capital of the Elbrus district, and is an interesting town to spend some time in, with its unique location in the mountains and place in Soviet history as a once-booming mining town. The main thing to consider in visiting Nalchik and other cities in the lowlands, is the chance to experience Kabardian culture and food. Whereas the deeper you go into the valleys, the more you’ll encounter Balkar culture and food.
4. Best local foods to try?
There are 3 types of food that come to mind, when spending time in Kabardino-Balkaria:
A. Khychiny – This is one of the staple national dishes of the Balkar people, and what you’ll inevitably be served if guests of local Balkars. It’s a thin buttery flat bread, sometimes cooked with fillings of cottage cheese, fresh greens, or potatoes. It is often slathered in butter, but wow is that some tasty greasy goodness! 🙂
B. Shashlik – Shashlik is a MUST for any visit anywhere in the North Caucasus! Most people would agree that it’s the national food of the entire region. Shashlik is meat shish kabobs; while pork and turkey can be found in some parts of the Caucasus, lamb or chicken are the preferred shashlik meats of choice in Kabardino-Balkaria.
C. Soup – No matter where you are in Russia, you’re sure to find a local soup that people love. Kabardino-Balkaria is no different. Especially in the winter months in the mountain valleys, there’s nothing better than to come inside from the cold weather and warm your body up to a bowl of hearty Caucasus soup. Whether Georgian kharcho or local Balkar lakhman, make sure to try your hand at one of these soups with a side of fresh baked bread/lavash!
5. Top Hole-In-The-Wall restaurants:
Of course, for a republic of this size, we’re bound to leave at least a few great local joints off our list, but here are a few to get you started. ***Note: Restaurants in the North Caucasus are much better known for their food than their service, so prepare for tasty food, but manage your expectations about service:
-Elbrus – Kogutai Restaurant at Mt. Cheget – While this isn’t a hole-in-the-wall restaurant per se, it’s one of many to choose from in the Cheget tourist village, and we have found them to provide consistently good food and service. Kogutai has a nice interior, and maybe most important, an English-language menu with good pictures. 🙂 There also is a nice outdoor patio with fantastic views of the surrounding mountains.
-Nalchik #1 – Tameris Restaurant – This is a cafe with a relaxed atmosphere in the capital Nalchik. Local tour company Elbrus Elevation has taken foreign groups there on multiple occasions and always had good experiences. Address is ul. Kuliyeva 3.
-Nalchik #2 – Cafe-Bar Oasis – You have to know where this restaurant is to find it, but once inside, you won’t regret it! There is a unique cafeteria-style ordering process, that includes several dishes being cooked on the spot once ordered. You can sample local Kabardian dishes here. The seating area is very modern and a pleasant atmosphere to have a meal in. Address is ul. Kuliyeva 2.
-Upper Balkaria – Tau-El Restaurant – This is the restaurant part of the Tau-El Tourist Complex in Upper Balkaria. Whether spending the night or just passing through, make sure to stop here for a meal!
6. Must-See Sites
This republic is so chock full of “must-see” destinations, it’s impossible to narrow the list down. Here are just a few suggestions to get you started: (***Mt. Elbrus is a no-brainer and we’re assuming that’s on your list)
A. El-Tyubu and Paradrome – This is an amazing area towards the end of Chegem Valley. Many tourists visit the famous Chegem Waterfalls and don’t drive any further down this gorge, which really is a shame. El-Tyubu is a picturesque Balkar village with several historical sites to see, including some ancient mausoleums. The real gem of the area, though, is the Paradrome , which is Russia’s premier paragliding destination. The combination of the scenic surrounding mountains and constant winds produces almost daily conditions to sail through the beautiful Caucasus sky. Highly recommend!
B. Upper Balkaria – Also known as Cherek Valley, the entire drive to the actual village of Upper Balkaria is one big destination. First, you can spend time at the 3 consecutive “ Blue Lakes ”, one of which is one of Russia’s deepest lakes with an underground spring. Then, the drive itself becomes an adventure, as you pass by steep rock walls with a huge drop-off on the other side. If you’re able to walk this part of the road, that is a bonus! Once you’ve made your way through the valley walls, the region opens up into a beautiful panoramic view. Many years ago, there were multiple villages in this region, but they’ve since been condensed into one main village. You can see some of the ancient Balkar towers that their ancestors used to live in as well.
C. Djili-Suu – Although hard to pronounce and not easy to get to, Djili-Suu is one of those places in the North Caucasus that people rave about that you “have to” visit. It’s actually on the North side of Mt. Elbrus, and more accessible from the Mineral Waters region (2 hrs. from Kislovodsk). The base camp for Elbrus climbers summiting the mountain from the North side is at Djili-Suu. This area is famous in Russia for its numerous natural healing springs, as well as unique climate conditions that make for beneficial, long holidays for seeking a respite from their daily grind. There are wide swaths of land available for camping, with probably the most unrivaled views of Mt. Elbrus in the North Caucasus. Make sure to check this out!
7. Off-the-beaten path destinations
A. King’s Waterfalls (Tsarskie), or Gedmisht – Probably the valley in Kabardino-Balkaria with the least amount of hype is the Malka Valley, which is the northernmost valley and mainly runs through the Kabardian lowlands. At the point where the villages end, though (Khabas), the asphalt turns into dirt and the hills start to rise, culminating with the incredible King’s Waterfalls, or as one friend put it, Avatar Waterfalls. These stunning waterfalls are best visited in the early summer, when everything is lush green and the water flow is strong, with many streams of water flowing down the earth’s surface. The different colors are incredible and it’s hard to look away. Once you’ve enjoyed the waterfalls, enjoy a meal of shashlik at one of the nearby lunch huts. Having an off-road vehicle is ideal to visit these falls, but worth the time and effort!
B. One-seater chair lift at Elbrus – As the infrastructure at Mt. Elbrus has modernized, some of the more “authentic” experiences have gone to the way-side. This is one experience still available, though! From the 2nd (11,000 ft.) to 3rd level (12,500 ft.) of Mt. Elbrus (whether skiing, going to base camp, or just touring), there is a single-seater chair lift for 100 rubles each way (less than $2). This is an amazing experience if you have the time. It’s 8-10 minutes each way, and a surreal experience of the majestic Caucasus mountain range surrounding you, skiers silently passing you by underneath, and in general enjoying the silent expanse of nature all around. The chair lifts are from the Soviet times and so it feels like something from a different era. For mountain climbers, the newer group cable car gives better access to most of base camp, but several huts are pretty close to this chair lift, so it still may be a good option for you.
C. Abandoned Mines above Tirnauz – Tirnauz is about 1 hr. from Mt. Elbrus, and a town everyone drives through to and from the mountain. Although today it looks old and half-abandoned, it was a booming mining town in the 20th century. About a 45-minute drive above the city with an off-road vehicle, you can see the remains of the mining operations. Learning about this history combined with the breath-taking views of the Baksan Valley and even into Georgia, you’ll wonder why more people aren’t visiting this place. This is a great spot to see eagles soaring in the sky, as well as admire the Soviet city plan of Tirnauz from above.
8. What do I need border zone passes to visit?
In Russia, any area within 5-10 km of a neighboring country, without a clearly delineated border (i.e. in the mountains) is considered a special border zone, and patrolled by Russian border guards. This area IS accessible to all Russian citizens with their passports, but is NOT legally accessible to foreign citizens UNLESS you have a special permit from the FSB (Federal Security Bureau). These permits are accessible, either through a tour operator or local friend, but require you to submit your application 45-60 days in advance.
Areas in Kabardino-Balkaria that are worth a visit if you have a border zone pass:
A. Bezengi Wall – This is at the end of the Bezengi Valley, and holds a place of lore among Russian mountain climbers. Many mountain guides go through training in this valley. Five of the Caucasus Mountain’ range’s highest seven peaks are a part of the Bezengi Wall, so you can imagine the draw it has for climbers. There are great areas for trekking and camping in this area.
B. Adyr-Suu Gorge – This remote valley runs perpendicular to Baksan Valley and is about 25 minutes from the base of Mt. Elbrus. It’s marked at the entrance by a relic of the past, a car lift from Soviet days that auto-cranks your car (and you) about 50 meters up the mountain. After 45-60 minutes of driving on gravel road, the gorge opens up into a flat valley with a beautiful view of the surrounding mountains. The Adyr-Suu Alpine Lodge is at the end of this valley and where back-country skiers base out of during the acclimatization phase of their Mt. Elbrus ski tours. This is truly a place where you can experience untouched powder!
C. Mt. Cheget (Elbrus) – Cheget is a neighboring mountain to Mt. Elbrus and where many climbers will acclimatize, both at its base and while doing some hikes. It also is famous in Russia for its free-ride terrain for more experienced skiers. Standard access to the chair lifts and mountain are available to all (i.e. mountain climbers don’t need to worry about accidentally crossing into the zone), but anyone wanting to summit the peak of Cheget OR visit the beautiful Cheget Lake needs a border permit.
Foreigners violating the border zone areas is considered a serious offense in Russia; make sure to do your due diligence if wanting to visit one of these areas! We highly recommend using a local tour operator and always traveling with a local person if visiting one of these areas.
9. Any cultural “do’s” or “don’t’s” to be aware of
Kabardino-Balkaria is a fascinating republic with a combination of traditional and modern society. The more you interact with local people, the more you’ll see a mixture of Muslim faith, post-Soviet mentality, and ancient local traditions all wrapped together.
Kabardians mainly live in the lowlands (Nalchik, Baksan, and lowland villages), while Balkars primarily live in the mountain valleys (Elbrus, Chegem, Upper Balkaria, etc.). There is a large population of Russians in the region as well. Foreigners visit every area of the region regularly, and so local people are used to and will welcome your presence.
Come with an open mind to learn about these peoples, their traditions, and their land. You won’t regret your trip to Kabardino-Balkaria!
***Want to learn more? Here are several self-published resources from the podcast “ CaucasTalk ” related to Kabardino-Balkaria:
– Travel Tips to Kabardino-Balkaria (audio version of this blog)
– History of Mt. Elbrus (Part 1)
– History of Mt. Elbrus (Part 2)
– Interview with Local Elbrus guide
– Climbing Elbrus: Interview with American guide
– Who are the Kabardians? (Part 1)
– Who are the Kabardians? (Part 2)
– Skiing in the North Caucasus (Elbrus and more)
READY TO EXPERIENCE KABARDINO-BALKARIA FOR YOURSELF?
Where to find us.
- +1 704-810-4296
- [email protected]
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Travel Information
- We no longer offer travel services to Russia. See Caucasus Quest Tours for new destinations
- Is it Safe to Travel to the Caucasus in 2024?
- Climbing Kazbek & Kilimanjaro: Comparing two 5,000+ meter peaks
- How to Train to climb Mt. Kazbek in Georgia
Our Elbrus Climbing Tours
- Climb Elbrus South Route
- Climb Elbrus North Route
- Climb Elbrus & The Capitals
- Climb Elbrus & The Caucasus
Russia Cultural Tours
- Capitals of Russia
- Lake Baikal on Ice
- Delightful Dagestan
- Heart of the Caucasus
ALL Travel Services to Russia and Mt. Elbrus have been indefinitely suspended as of Feb. 2022.
Explore our new tour branch Caucasus Quest to climb Mt. Kazbek (5,054 meters) in Georgia or for immersive cultural touring experiences in Georgia, Armenia, and Azerbaijan.
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Automaxx. The Automaxx line of wind generators comes in 12v, 24v 48v models, in outputs from 400w up to 1500w. Survival wind speeds are listed at 110mph, but we hope you would never have to put that spec to the test. With very low cut-in speeds of less than 6mph, you will get charging amps on the slightest breeze.
Quick Answer - The Best Wind Generators for Sailboats. AutoMaxx DB-400. View at Amazon. Primus Wind Power Air-X Marine. View at Amazon. Nature Power 2000W. View at Amazon. Missouri General Freedom II. View at Amazon.
Here Are Some Of The Best Best Marine Wind Turbine Generators For Sailboats Auecoor Solar Wind Hybrid System - Best Marine Wind Turbine Generator on Amazon ... The Rutland 504 is a small and lightweight (just 3.5kg) mini-horizontal turbine from the UK off-grid power specialist, Marlec. The earlier model (503) has proven to be extremely ...
The MarineKinetix MK4+ wind turbine system is a leap forward in wind turbine science. It makes the intelligent compromise between low-speed start-up and high-speed output, all at a realistic and cost-effective price. A complete 400 Watt Wind System (includes generator and controller) 1330mm Blade Diameter (1.3M) - Swept Area = 1.39 Meter
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The Rutland 913 is the second six-bladed, small-rotor, wind generator featured in our test. Output of the Rutland 913 is 12 volts DC, and it is manufacturer-rated to deliver up to 250 watts. It is designed to provide power (via a battery or bank of batteries) to 12-volt or 24-volt systems.
In 2007, Practical Sailor tested six wind generators side-by-side over the course of four days in February. The previous time we attempted a similar side-by-side test, it was a bust. The turbines spun feebly in a marina with little wind. Prior to that attempt, we long-term tested five models individually on a hilltop in Rhode Island ("Wind Generators, Part 1: Ten Years of Experience," Oct ...
Whether you have a sailboat, a small yacht, or a motorboat, a 12V wind turbine can help keep your batteries charged and your onboard electronics operational. Portable wind turbines: Power on the go. If your boating adventures take you off the grid or to remote locations, portable wind turbines can be your reliable source of power.
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Available in 12, 24 & 48V versions providing up to 420 Watts! Size. Silentwind 400 pro 12v. £ 1,950.00 £ 1,835.29. Out of stock. SilentWind 400 Pro Marine Wind Generator + 600W BT Hybrid Charge Controller quantity. Add to basket. SKU: SWP12V Category: Electrical. The SILENTWIND 400 PRO is ultralight and aerodynamic.
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The Details. The best marine wind turbine is the TESUP Master940. As the name suggests, this model can produce over 900W of power, making it the most powerful turbine on this list. Sweet! However, there are more reasons to buy this wind turbine than just its high level of power output. Here's the power output curve:
The Silentwind wind generator is designed to charge batteries on sailing vessels by converting wind energy into electricity. The generator has been developed and produced for use in marine environment. It can be used in various wind conditions: small, medium and high. Silentwind is lightweight (6kg), built in aluminum alloy suitable for marine ...
In fact, the relationship between wind speed and the energy it contains is cubic, so power decreases exponentially. To put that in context, a boat doing 8 knots dead downwind in 20 knots of true wind would experience an apparent wind of just 12 knots. A turbine might generate 40 watts in 12 knots of wind, but most manage 200 watts in 20 knots.
Installing a wind generator on a sailboat is a process that must start with an assessment of the sailboat's power needs. ... directly affect how well the wind generator's turbine converts the wind power into electrical energy. You should also ensure that the amount of battery storage available on your sailboat, as well as the controls available ...
We'll make it easy for you by recommending what we believe to be the absolute best marine wind turbine. The Primus Wind Power Air X may in fact be the best overall wind turbine for marine wind generators. Here's why it's ideal for nearly every boat: Durable for speeds of up to 110 mph. Highly reputable manufacturer.
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Description. Reviews (0) AIR X Wind Generator 48V is a 400 watt wind turbine capable of charging any size battery even in harsh or gusty environments. HP-BB (High Performance Blue Blades) High performance carbon fiber blades (Silent Wind blue blades) can be purchaed separately or are available in many of our all-inclusive modestly priced kits.
NATURE POWER 500 Watt Marine Grade 12/24V Wind Generator. This wind turbine can produce up to 500-Watts of power. Use with an inverter to run small TVs, phones, lights, radios, and power tools, in your cottage, cabin, work site where power from the electric company is too expensive or not available. Made of cast aluminum and marine grade ...
Global onshore wind turbine orders hit 91.2 gigawatts (GWs) in the first half of the year, a 23% year-on-year rise, due to higher demand in the second quarter from China's northern region, Wood ...
Nalchik Arc De Triumph. The word "Nalchik" literally means "small horseshoe" in Kabardian (or Circassian, a Northwest Caucasian language) and Karachay-Balkar (a Turkic language). It is a diminutive of na'l, a common Middle Eastern word (Arabic, Persian, Turkish) for "horseshoe", possibly from the ancient Scythian, 'nalak" (horseshoe).
For nearly a century, Nalchik remained a backwater military garrison town. In 1921, 4 years after the October Revolution, Nalchik was registered a city. On 13 October 2005, a group of fighters took over the city, attacking the police and army headquarters. The city was then re-taken by the Russian special forces. 136 people died in the event.
Visiting Russia - Nalchik. Nalchik is a small city of around 240,000 people and serves as the capital of Kabardino-Balkaria, one of the lesser-known republics spread across the beautiful North Caucasus area of Russia, the mountain range that separates the former soviet states of Georgia, Armenia, and Azerbaijan from the Russian Federation.
B. Car/Public Transport - If you have a car, are using a taxi, or are hitch-hiking your way to Kabardino-Balkaria, the region is accessible by a variety of roads and vehicles. A major Russian federal highway E50 runs through Pyatigorsk into Kabardino-Balkaria, and can take you towards Mt. Elbrus, Nalchik, and deeper into the North Caucasus.