The Magenn Floating Power Station
Here’s an interesting idea:
The Magenn Power Air Rotor System (MARS) is an innovative lighter-than-air tethered device that rotates about a horizontal axis in response to wind, efficiently generating clean renewable electrical energy at a lower cost than all competing systems. This electrical energy is transferred down the tether to a transformer at a ground station and then transferred to the electricity power grid. Helium (an inert non-reactive lighter than air gas) sustains the Air Rotor which ascends to an altitude for best winds and its rotation also causes the Magnus effect. This provides additional lift, keeps the device stabilized, keeps it positioned within a very controlled and restricted location, and causes it to pull up overhead rather than drift downwind on its tether.
The distinct advantages of the Magenn Air Rotor System design are as follows:
- Magenn Air Rotor System is less expensive per unit of actual electrical energy output than competing wind power systems.
- Magenn Power Air Rotor System will deliver time-averaged output much closer to its rated capacity than the capacity factor typical with conventional designs. Magenn efficiency will be 40 to 50 percent. This is hugely important, since doubling capacity factor cuts the cost of each delivered watt by half.
- Wind farms can be placed closer to demand centers, reducing transmission line costs and transmission line loses.
- Conventional wind generators are only operable in wind speeds between 3 meters/sec and 28 meters/sec. Magenn Air Rotors are operable between 1 meter/sec and in excess of 28 meters/sec.
- Magenn Air Rotors can be raised to higher altitudes, thus capitalizing on higher winds aloft. Altitudes from 400-ft to 1,000-ft above ground level are possible, without having to build an expensive tower, or use a crane to perform maintenance.
- Magenn Air Rotors are mobile and can be easily moved to different locations to correspond to changing wind patterns. Mobility is also useful in emergency deployment and disaster relief situations.
Now, I know plenty of people that might say, well airplanes will crash into them, or maybe lightning could strike them. But then, not many planes fly at 400-1000 ft. And, you don’t have to position these things around airports, or in crowded areas. Large open areas exist nearly everywhere in the world, and as we know, there’s plenty of wind all over the place.
So, what a great idea! Cross-posted at The English Guy. Read more at Magenn’s website »
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