Alternator for Low Wind Speed Wind Turbine.

In summary: With a bigger wind turbine, you could definitely generate more energy. However, I don't think it is feasible to increase the size of your wind turbine without also increasing the size of your alternator.
  • #1
MechaMZ
128
0
Hi

I've a wind turbine which have to run under a very low wind speed, from 2-3m/s.

Currently, I'm using Envirotek V20, the result is around 1.5V-2.5V, and current is 0.3mA or nearly zero.

My aim is to achieve 50W.

Any suggestion for the alternator which I should use?
p/s: without aided by any gear arrangement.

thanks alot.
 
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  • #2
Are you sure you have 50W of available wind energy at 2-3m/s? The alternator's size, unless it is absurdly large, doesn't affect the output power much.
 
  • #3
Along with what Russ said; if the windspeed is that slow, I don't think any change of alternator is going to give you the Watage you're trying for. The only thing I can think o ffor increasing output is increasing input. Since you can't incrase the wind's speed, I suppose this will mean increasing the size of your airfoil blades. Catching more wind at the same speed will increase the energy that is being input into your system.
 
  • #4
LURCH said:
Along with what Russ said; if the windspeed is that slow, I don't think any change of alternator is going to give you the Watage you're trying for. The only thing I can think o ffor increasing output is increasing input. Since you can't incrase the wind's speed, I suppose this will mean increasing the size of your airfoil blades. Catching more wind at the same speed will increase the energy that is being input into your system.

think this is a good idea..

I will try out with an experiment..

thanks alot..
 
  • #5
What is the size of the turbine? We can help calculate the available energy and likely capture.
 
  • #6
russ_watters said:
What is the size of the turbine? We can help calculate the available energy and likely capture.

I'm using this currently..
www.envirotekpower.co.uk/V20info.html

but I'm going to redesign the turbine blade..
currently, I have few designs. they are most likely same as these examples
www.peswiki.com/index.php/Image:Statoeolien_95x95.jpg
www.peswiki.com/index.php/Image:Helix_Wind_95x95.jpg
www.hi-energy.com.tw/selection-6-english.htm[/URL]
[url]www.oregonwind.com/[/url]

just not sure which can really function good in low wind speed, 2m/s-3m/s
I think I have to run a few test on them..

by the way, you are so kind, really thanks :)
and I'm very appreciate..

p/s: sry for the urls..
 
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  • #7
Besides change the size of wind blades, Do you think it's possible to generate 50W with a gear system?

my v20 now is able to achieve 165rpm @ 4.3m/s, and the current produce is almost 0! (even the wind speed reach 8m/s)

do you think just because the alternator is a lousy one?

many thanks:)
 
  • #8
More gearing will only hurt you - it doesn't amplify energy and you lose energy from friction.

According to the site, that turbine only generates 3W (.25A @12V) at 4.5m/s using a turbine with a cross sectional area of .18 m^2. I don't have time to run through the energy calculation for the wind right now, but my gut tells me that if theirs can only generate 3W, you have no hope of generating 50W with a turbine that small.
 
  • #9
russ_watters said:
More gearing will only hurt you - it doesn't amplify energy and you lose energy from friction.

According to the site, that turbine only generates 3W (.25A @12V) at 4.5m/s using a turbine with a cross sectional area of .18 m^2. I don't have time to run through the energy calculation for the wind right now, but my gut tells me that if theirs can only generate 3W, you have no hope of generating 50W with a turbine that small.

how about with only 2 gears, as to increase the rpm of alternator.

wind turbine with a bigger gear, and small gear for alternator. So my alternator able to turn more round as wind turbine gear turns one round.

or I can let alternators connected in series since my project can involves more than 1 wind turbine and alternator.

thanks alot
 
  • #10
Well, you could certainly run 20 of them in parallel, or hook 20 up to a common alternator.

But again, just changing the gear ratio does not change the energy you can generate. You'll increase the rpm, but decrease the torque.
 
  • #11
The wind energy available to one of those turbines, by the way, at 4.5 m/s is 8 watts. That's based on a kinetic energy calculation: 1/2 mv^2 = .5*(4.5*.18*1.29)*4.5^2 = 8. A total system efficiency of just under 40% is pretty good, so I wouldn't expect you to be able to beat their performance.

1.29 kg/m^3 is the density of air.
 
  • #12
this fact is really disappoint me :(

but how about increase the wind turbine size and with the help of gear ratio?

thanks again
 
  • #13
I found this design is able to generate around 200 watts @ 10mph, 4.4704 m/s.

unfortunately it is horizontal wind turbine.

and it's able to generate 200W @ 4.4704 m/s, because it is horizontal?
 
  • #14
Dear Russ,

I've found this, which is able to generate 150 Watts in a 10 mph wind!

Wow!
 
  • #16
MechaMZ said:
Dear Russ,

I've found this, which is able to generate 150 Watts in a 10 mph wind!

Wow!
That person think's he's found a revolutionary new way to capture wind, but he hasn't. His own tests should tell him that:
We averaged 20 mph winds, which spun the wind turbine at 120 to 130 rpm, which translates to speed of circumference of the 4 ft dia. sail-disk of 17 - 18 mph, which is 85-90% of the wind speed, spinning the bicycle wheel on high gear at 52/14 = 3.7 x 130 = 481 rpm x 27” = 47 mph. There was not enough torque to turn the powerful bicycle motor (with it’s 1.25” roller and much magnetic and frictional resistance at that speed ~ when we geared down it could almost balance the friction of the motor, but we didn’t generate much power. [emphasis added]
 
  • #17
MechaMZ said:
but how about increase the wind turbine size and with the help of gear ratio?
Yes, the physical size of the turbine is the key factor in determining how much power it can generate.
 
  • #18
MechaMZ said:
and it's able to generate 200W @ 4.4704 m/s, because it is horizontal?
No, it generates more power because it is bigger.
 
  • #19
dear russ, could you recommend some alternators that are suitable for low wind speed?
because I'm trying to find those can generate well current & voltage under low wind speed.

because this is the first priority then turbine design and gear system.
 
  • #20
russ_watters said:
The wind energy available to one of those turbines, by the way, at 4.5 m/s is 8 watts. That's based on a kinetic energy calculation: 1/2 mv^2 = .5*(4.5*.18*1.29)*4.5^2 = 8. A total system efficiency of just under 40% is pretty good, so I wouldn't expect you to be able to beat their performance.

1.29 kg/m^3 is the density of air.

Russ, is that 8 watt figure per square meter, or for the area of Mecha's particular turbine, or some other area?

I agree that increasing power must come from using larger turbine blades.
 
  • #21
Redbelly98 said:
Russ, is that 8 watt figure per square meter, or for the area of Mecha's particular turbine, or some other area?
Just that particular turbine - the .18 in the equation is the cross sectional area of the turbine in square meters.
 
  • #22
MechaMZ said:
dear russ, could you recommend some alternators that are suitable for low wind speed?
Sorry, that I really can't help you with except to say that I'd try to match the input and output power to each other to minimize loss. So that would mean basing the selection on the maximum expected load/wind, not the low end.
because this is the first priority then turbine design and gear system.
The difficulty here is that all of these parameters are interdependent. "Low wind speed" is not a property of an alternator, it is a property of a turbine. So my design process would go like this:

1. Determine performance requirements (peak watts, minimum watts, min/max associated wind speed).
2. Select an alternator that covers the entire range of power required.
3. Select/design a turbine system that is capable of providing the required performance (remembering to include inefficiency factors).
4. Select/design a gearing system to transfer the power between the turbine and alternator.
 
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  • #23
My research on this subject led to an inescapable conclusion: The only way to get the kind of efficiency desired is to build the alternator yourself.

There is basically no possibility of buying an 'off-the-shelf' alternator that doesn't make tradeoffs you're not interested in.

An alternator's efficiency can be improved in several ways, but none of them are very likely to have been found worthwhile for commercial uses. Using the strongest magnets possible is a big one (rare Earth magnets), designing the rotor and stator to be as close together as your methods permit is another, using three-phase power (more efficient generation) is a biggie... and biggest of all; if you design an alternator with a specific turning speed, friction load, and output in mind, you can get much further along than any 'savings' in time or effort that would accrue from buying your alternator 'as-is'.

I can see how you might think alternator design and building is a daunting task, but I assure you, it's worth it... and probably not as difficult as you might first think.

Let me put it this way: If you try everything else suggested and still see only minor improvements/ negligible output, then how reasonable would it sound to suddenly achieve what you wanted at the cost of 'merely' building an alternator? Put in a thousand man-hours with nothing to show for it and I'll wager that even a "herculean" 100-hour-effort will seem like nothing, if that's the price for success.

There are useful data on this subject available; let me know if you're interested.
 
  • #24
Isarmann said:
My research on this subject led to an inescapable conclusion: The only way to get the kind of efficiency desired is to build the alternator yourself.

There is basically no possibility of buying an 'off-the-shelf' alternator that doesn't make tradeoffs you're not interested in.

An alternator's efficiency can be improved in several ways, but none of them are very likely to have been found worthwhile for commercial uses. Using the strongest magnets possible is a big one (rare Earth magnets), designing the rotor and stator to be as close together as your methods permit is another, using three-phase power (more efficient generation) is a biggie... and biggest of all; if you design an alternator with a specific turning speed, friction load, and output in mind, you can get much further along than any 'savings' in time or effort that would accrue from buying your alternator 'as-is'.

I can see how you might think alternator design and building is a daunting task, but I assure you, it's worth it... and probably not as difficult as you might first think.

Let me put it this way: If you try everything else suggested and still see only minor improvements/ negligible output, then how reasonable would it sound to suddenly achieve what you wanted at the cost of 'merely' building an alternator? Put in a thousand man-hours with nothing to show for it and I'll wager that even a "herculean" 100-hour-effort will seem like nothing, if that's the price for success.

There are useful data on this subject available; let me know if you're interested.


Ya, I'm interested. Could you tell me about it?
 
  • #25
Sure!

A few sites:

[disallowed by forum; think I have one more post to go]

That last link is to actual instructions on the subject, and all these resources offer possible sources for rare-earth magnets to use.

There is valuable exposition explaining the advantages of building your own alternators; but they also discuss the best to use if you simply must buy.

The how-to instructions also feature a very clear explanation of how to wind an alternator for three-phase power--- I think that what can be learned here is applicable even in parts; say, if you'd like to rewind a purchased alternator, or replace its magnets, to increase efficiency without having to make the entire thing.

The 'otherpower' guy has been at it for some years now--- I think it is his site that I first saw a few years ago which turned me on to this whole idea. All the resources listed are very much focused on real results and real output; there's very little 'armchair engineering' going on here. I know it can be very disappointing to do a lot of work for little-to-no results; these people will give you a solid foundation and real-world results to base your designs and work upon.

Hope it's helpful.

(I will have to try again, the forum wouldn't allow the URL's to show)
 
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  • #26
Have to get to fifteen posts...
 
  • #27
Okay, I think they'll make it now--- here are the links:

http://www.scoraigwind.com/

http://www.otherpower.com/

http://windstuffnow.com/main/alt_from_scratch.htm

Incidentally, I ran across a table which seems to show that there's little chance of getting usable power from a 2-3 mph wind; I think that's how this topic was started...

I did some work on a variable-geometry Darrius wind turbine a few years ago... if you must try to make use of such a low wind, a turbine of this style, made of ultra-lightweight materials (I'm thinking composites here) may be the only practical way to go.

Darrius turbines have interesting features, including the fact that they can produce torque capable of bending the driveshaft--- so if you are stuck with the "gearing to match your windspeed" idea, this may work to produce power that (even at low rpm's) you can gear up to the speed needed for the alternator.
 
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  • #28
Hi russ,

I've found an alternator, could you kindly help me take a look?
it called " Futurenergy Permanent Magnet Generators", I think it should be the one that I'm looking for.

here is the link, http://energistar.com

thank you very much
 
  • #29
Those generators require 9 mph winds to generate the 50 Watts you require.

See their table here:
http://energistar.com/FE1012U%20(404).pdf [Broken]
 
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  • #30
Redbelly98 said:
Those generators require 9 mph winds to generate the 50 Watts you require.

See their table here:
http://energistar.com/FE1012U%20(404).pdf [Broken]

but it's for horizontal wind turbine, I'm wondering how about my vertical wind turbine
 
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  • #31
but as what they state here, http://energistar.com/FE1012U%20(404).pdf [Broken]

the alternator able to generate 53W with 260rpm(4m/s), but with a horizontal wind turbine.
 
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  • #32
MechaMZ, You need to understand that no matter what kind of alternator you use, you can't produce energy which is not there, because you are not "producing" energy, merely transforming wind energy to electrical energy.
Its the turbine size you should be worried about, maybe blade profile etc etc
 
  • #33
ank_gl said:
MechaMZ, You need to understand that no matter what kind of alternator you use, you can't produce energy which is not there, because you are not "producing" energy, merely transforming wind energy to electrical energy.
Its the turbine size you should be worried about, maybe blade profile etc etc

ya, thanks for remind, i knw tht we can't create energy.
just because I want to reduce the losses as least as i could.

any suggestion for the gear type?
 
  • #34
MechaMZ said:
just because I want to reduce the losses as least as i could.

any suggestion for the gear type?

I am afraid the more you add gearboxes, more you are going to increase losses. Keep in mind, smaller the number of units, more is the efficiency.
Only way i see to increase the output is to increase the blade area, and its profile. I think Mech_Engineer already said this.

MechaMZ, do you know that a wind turbine in very 'windy' conditions is feathered(AoA is made close to zero) to reduce the speed below a minimum safe level??
 
  • #35
ank_gl said:
a wind turbine in very 'windy' conditions is feathered(AoA is made close to zero) to reduce the speed below a minimum safe level??

not very understand, could you further explain?

btw, now my rpm is around 160 at 4m/s, I'd have to increase it to 260. So I think gearbox is needed. of course I will increase the blade size as well :)

but what are the factors actually will affect the rpm?
 
<h2>1. What is an alternator for a low wind speed wind turbine?</h2><p>An alternator for a low wind speed wind turbine is a device that converts the kinetic energy of the wind into electrical energy. It is a crucial component of a wind turbine, as it is responsible for generating the electricity that is used to power homes and businesses.</p><h2>2. How does an alternator work in a low wind speed wind turbine?</h2><p>The alternator in a low wind speed wind turbine works by using a rotor and stator to create a magnetic field. As the blades of the turbine spin, they turn the rotor, which then creates a rotating magnetic field. This induces an electrical current in the stator, which is then converted into usable electricity.</p><h2>3. What is the difference between an alternator for a low wind speed wind turbine and a regular alternator?</h2><p>The main difference between an alternator for a low wind speed wind turbine and a regular alternator is the design. Alternators for low wind speed wind turbines are specifically designed to operate at lower wind speeds, whereas regular alternators are designed for higher speeds. Additionally, alternators for wind turbines often have a higher number of poles to increase efficiency.</p><h2>4. How important is the alternator in a low wind speed wind turbine?</h2><p>The alternator is a crucial component of a low wind speed wind turbine. Without it, the kinetic energy of the wind would not be able to be converted into usable electricity. The efficiency and reliability of the alternator also play a significant role in the overall performance of the wind turbine.</p><h2>5. Can the alternator be replaced or upgraded in a low wind speed wind turbine?</h2><p>Yes, the alternator in a low wind speed wind turbine can be replaced or upgraded. However, it is important to consider the compatibility and specifications of the new alternator to ensure it will work properly with the rest of the turbine components. It is recommended to consult a professional before making any changes to the alternator in a wind turbine.</p>

1. What is an alternator for a low wind speed wind turbine?

An alternator for a low wind speed wind turbine is a device that converts the kinetic energy of the wind into electrical energy. It is a crucial component of a wind turbine, as it is responsible for generating the electricity that is used to power homes and businesses.

2. How does an alternator work in a low wind speed wind turbine?

The alternator in a low wind speed wind turbine works by using a rotor and stator to create a magnetic field. As the blades of the turbine spin, they turn the rotor, which then creates a rotating magnetic field. This induces an electrical current in the stator, which is then converted into usable electricity.

3. What is the difference between an alternator for a low wind speed wind turbine and a regular alternator?

The main difference between an alternator for a low wind speed wind turbine and a regular alternator is the design. Alternators for low wind speed wind turbines are specifically designed to operate at lower wind speeds, whereas regular alternators are designed for higher speeds. Additionally, alternators for wind turbines often have a higher number of poles to increase efficiency.

4. How important is the alternator in a low wind speed wind turbine?

The alternator is a crucial component of a low wind speed wind turbine. Without it, the kinetic energy of the wind would not be able to be converted into usable electricity. The efficiency and reliability of the alternator also play a significant role in the overall performance of the wind turbine.

5. Can the alternator be replaced or upgraded in a low wind speed wind turbine?

Yes, the alternator in a low wind speed wind turbine can be replaced or upgraded. However, it is important to consider the compatibility and specifications of the new alternator to ensure it will work properly with the rest of the turbine components. It is recommended to consult a professional before making any changes to the alternator in a wind turbine.

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