Questions about the physics of turbine operation

In summary, the conversation discusses the idea of connecting multiple alternators to one shaft on a wind or water turbine. The speaker wonders why this is not a common practice and if there are any potential downsides. The response mentions that one alternator is sufficient to reach the maximum energy output limit, as explained by Betz' Law. The speaker is interested in the possibility of using multiple alternators to increase voltage output.
  • #1
Jdetterline
2
0
I'm no physicist, or grammar specialist so please go easy on me for my first posting here. I've been seeing a lot about wind turbines and hydro turbines. But I had an idea that I thought would be very obvious yet I can't find a topic on it when doing a quick search. And that is this; what would be the downside of connecting multiple alternators to one shaft on either a wind or water turbine? Keep in mind this would include making a longer shaft from the blades on the turbine to accommodate spacing out gears or whatever so that you can space out belts to make room for different alternators. I'm just wondering if the resistance is that great when you connect more than one via a belt, or why hasn't anyone done this already? Or maybe the real problem here is that I just haven't found the link? Thanks for reading.
 
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  • #2
You can add as many alternators as you want, but one alternator is sufficient to get close to the theoretical maximum energy output limit of 59% on a horizontal axis wind turbine, for example. Energy out will never exceed energy in. Read about Betz' Law for wind turbines at

http://en.wikipedia.org/wiki/Betz'_law

Bob S
 
  • #3
Okay thanks Bob. I'll have to read that. I guess in my simple mind I was envisioning 4 12V alternators producing 48V. Or whatever Voltage an alternator produces and mulitiplying that by 4.
 

1. How does a turbine work?

A turbine works by converting the kinetic energy of a fluid, such as water or steam, into mechanical energy. The fluid flows through the blades of the turbine, causing them to rotate and turn a shaft connected to a generator, which produces electricity.

2. What are the main components of a turbine?

The main components of a turbine include the rotor, the blades, the stator, the shaft, and the generator. The rotor is the rotating part of the turbine that contains the blades. The stator is the stationary part that directs the flow of the fluid. The shaft connects the rotor to the generator, which converts the mechanical energy into electricity.

3. How does the design of a turbine affect its efficiency?

The design of a turbine is crucial in determining its efficiency. Factors such as the shape and angle of the blades, the size of the rotor, and the smoothness of the surface all play a role in how well the turbine can convert the fluid’s energy into mechanical energy. A well-designed turbine will have a high efficiency, meaning it can convert a greater percentage of the fluid’s energy into usable energy.

4. How do different types of turbines differ in their operation?

There are several types of turbines, including wind, water, and steam turbines. The main difference between these types is the source of the fluid that drives the turbine. Wind turbines use the force of wind, water turbines use the force of water, and steam turbines use the force of steam. Each type also has its own unique design and components that allow it to harness the energy of the fluid in the most efficient way.

5. What factors affect the performance of a turbine?

Several factors can affect the performance of a turbine, including the type and quality of the fluid, the design and condition of the turbine, the speed of the fluid, and the temperature and pressure of the fluid. Environmental factors, such as wind speed or water flow, can also impact the performance of a turbine. Maintenance and upkeep of the turbine are also important in ensuring optimal performance.

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