Hi

Nice work!

Can you please say what is the pitch angle used?

great talent .. very entertaining .. thanks

small scale?? along with?? what about Meglev!?

sorry bout getting nit picky but even the vawt does not perform at optimum in turbulent air. it works better than hawt does by far but it still for optimum needs a single direction wind supply; especially the lift type like yours

Nice. Care to share data?

isn't thier some "resistance on the return side of this? If so, couldn' t you put a "half Barrel" around it that would swivel with the use of a wind like a horizonral wind turbine uses to stop the wind from blowing against the "return half" as it comes back around to catch the wind agian? ( for lack of better terms)

I don't know much about phisics but wouldn't that be beneficial?

trader pierre has a perpetual motion design

watch?v=qg7hxaPAjnw

even a 6 yr old can understand what i'm saying even with my poor english skills! .

One wind power can produce 100 kilowatts,enough to b used by a lot of homes,imagine one for one home,okay its started by wind generates electricity then powers the house blah blah,if some of the electricity is put into a motor you could replace the wind by connecting it to turn the turbine

No offense, but it's really difficult to understand what you're tying to say when you forgo punctuation and grammar.

Dude! You appear to have a screw loose upstairs.

That's cool though! After all, you manage to have internet access. Right?

UNLESS YOU TRY IT, DON'T POST

I have an idea,but i'm not knowledgeable about electricity;-eg, imagine the circuit boards used in science class,this has a mini wind turbine,with a light bulb on the circuit also,you plug in hair dryer and blow the turbine...and its creates energy,right,now imagine if the power can be amplified (on this circuit) so that it could power another hair dryer that would replace the original one,there you would have infinite electricity.(one generator powering another generator which powers the first

"now imagine if the power can be amplified"

But it cannot. Using the most efficient generators and motors, with a fan on the motor and turbine on the generator, entails a loss of 80% of your power! Eliminate the fan/turbine and just hook up the motor to the generator ... and you still lose > 20% in the best case! That's how much power you need to ADD to the system just to keep it running. You

Violating thermodynamics laws.

wouldn't work. kind of like trying to get your sail boat going by fanning the sales. someone is going to poop out eventualy.

this is commonly known as "perpetual motion" and yes, it is imposible.

of course, fanning the sails falls into Newtonian territory, (equal and opposite reaction, eg: fan blows wind against sail by thrusting toward the front of the boat, the sails power wants to pull the boat forward, but cannot because the fan is pushing the boat backwards.)

perpetual motion, AKA: 100% efficient closed system, is not possible. if it was possible, any alleged perpetual motion system would start instantly with no external impulse as soon as the last bolt was tightened. impossible.

problem with amplification is that you lose one thing and gain another. for instance, you can step voltage from 12 to 120, but you lose a large bit of current in the process. you can step down voltage and gain lots of current. i don't have a reference near by with the exact formulas for this or i would give them.

as these others have said as well, a self sustaining system is impossible. you may be able to get close. but it will always need extra energy to run continuously.

According to Ohm's law the current through a conductor between two points is directly proportional to the potential difference or voltage across the two points, and inversely proportional to the resistance between them.

The mathematical equation that describes this relationship is:

 I = V/R

Thank you. thats one of those things you "know" but are not sure of the exact order of the variables so you dont want to quote it.

another issue to stepping a supply voltage up and down are the small losses to resistance in the transformer, in the form of heat. so even if you can transform the output to run a motor or some such, you lose some of the power generated in the first place as heat, that energy has to come from somewhere in order for the system to sustain, or it stops.

any data?