How can I calculate the voltage output of a wind turbine?

In summary, the individual is building a miniature wind turbine and is unsure of how to calculate the voltage gained from the generator. They are also unsure if the current changes depending on the rpm of the generator and are wondering if there is a general formula or method to calculate the voltage. The individual also mentions using a 12V generator. They receive advice to use a dynamometer to measure varying current and voltage and to look into new semiconductors designed for this purpose. They also mention the complexity of designing and building a system using transformers, voltage regulators, and feedback circuits.
  • #1
sooty1892
5
0
Hi
I wasn't sure whether this is technically homework or not but anyway.

I am building a miniature wind turbine for a basic project just for myself.
I was wondering if there was anyway for working out the voltage gained from the generator. I know this could be gained from using P = IV but I'm not sure if the current changes depending on the rpm of the generator.
Is there a general formula or way for working out the voltage? Obviously there are a number or variables such as the wind speed (linked in with the rpm) and whether the current alters (which I am not sure about).
Also the generator I am using is a 12V generator.
Thanks
 
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  • #2
sooty1892 said:
Hi
I wasn't sure whether this is technically homework or not but anyway.

I am building a miniature wind turbine for a basic project just for myself.
I was wondering if there was anyway for working out the voltage gained from the generator. I know this could be gained from using P = IV but I'm not sure if the current changes depending on the rpm of the generator.
Is there a general formula or way for working out the voltage? Obviously there are a number or variables such as the wind speed (linked in with the rpm) and whether the current alters (which I am not sure about).
Also the generator I am using is a 12V generator.
Thanks

MarkP: You'll need a dynamometer to measure the varying current and voltage caused by wind speed variations. Semiconductor manufacturers are now making a chip that will generate a constant voltage from a source that has varying voltage and current capacity. According to a friend, some even match their input impedance to maximize total power, rather than just current.
I'm sure some current professional wind turbines have gears designed to shift to keep current output of the electric generator more stable, depending on the wind turbine speed at the moment. Of course some form of electrical network, including transformers, voltage regulators, and some form of feedback circuit designed to tell the system when minimum, and maximum voltages have been reached, and then the circuits designed to deal with each scenario would be needed, I suppose.

I'm not sure I've answered your question in a way that can help you, but I'm just an electronic hobbyist, not a professional electrical engineer. However, if I were you, I would check into the new semiconductors designed specifically to maximize total power from a source of varying current and voltage. The other alternative is much more complicated, and requires a good deal of technical know-how to design and build.
 

1. How does the size of a wind turbine affect its power output?

The larger the wind turbine, the higher its power output. This is because larger turbines have longer blades and a taller tower, allowing them to capture more wind energy and convert it into electricity.

2. What factors affect the efficiency of a wind turbine?

The efficiency of a wind turbine is affected by several factors, including the wind speed, air density, blade design, and the height of the turbine. Higher wind speeds, lower air density, and optimized blade design can all increase the efficiency of a wind turbine.

3. How is the wind speed measured for wind turbine calculations?

Wind speed is typically measured using an anemometer, which measures the speed and direction of the wind. This data is then used in wind turbine calculations to determine the potential power output of the turbine at a specific location.

4. How is the power output of a wind turbine calculated?

The power output of a wind turbine is calculated using the equation P = 0.5 x ρ x A x V^3, where P is the power output, ρ is the air density, A is the swept area of the turbine blades, and V is the wind speed. This equation takes into account the amount of air passing through the turbine and the velocity of the wind to determine the potential power output.

5. Can wind turbine calculations account for variations in wind speed and direction?

Yes, wind turbine calculations can account for variations in wind speed and direction. Advanced wind turbine models use data from multiple anemometers and other sensors to adjust the pitch and direction of the blades in real-time, optimizing the turbine's efficiency and power output.

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