A flywheel is a device for storing energy or momentum in a rotating mass. A flywheel power system has a DC output similar to a chemical battery. A flywheel is being developed that will yield a higher power output than existing flywheel designs. Much of the preliminary research has been completed and a prototype is ready to be tested. Applications for this flywheel include use in spacecraft for energy storage and attitude control and in electric or hybrid vehicles for energy storage.

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ACTIVE POWER (ACPW)
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We design, manufacture and support efficient, reliable, and green critical power solutions and Uninterruptible Power Supply (UPS) systems to enable business continuity in the event of power disturbances.



BEACON POWER (BCON)
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Beacon Power designs and develops advanced products and services to support stable, reliable and efficient electricity grid operation. Our sustainable energy storage technology has been approved for use in providing frequency regulation services in three of the largest open-bid electricity markets in the U.S.

DID YOU KNOW?

A flywheel can be used to store energy by combining it with a device that operates either as an electric motor that accelerates the flywheel to store energy or as a generator that produces electricity from the energy stored in the flywheel.

The faster the flywheel spins, the more energy it retains. Energy can be drawn off as needed by slowing the flywheel.

Modern flywheels use composite rotors made with carbon-fiber materials. The rotors have a very high strength-to-density ratio, and rotate in a vacuum chamber to minimize aerodynamic losses. The use of superconducting electromagnetic bearings can virtually eliminate energy losses through friction.

Advantages
Flywheels are able to charge and discharge rapidly, and are little affected by temperature fluctuations. They take up relatively little space, have lower maintenance requirements than batteries, and have a long life span. Flywheels are relatively tolerant of abuse — for example, the lifetime of a flywheel system will not be shortened by a deep discharge.

Disadvantages
Power loss is faster than for batteries.

Applications
Flywheels are particularly suitable for power quality control. No large-scale applications of the technology have been made.

High-temperature superconducting flywheels (funded by DOE) are currently under development. Such systems would offer inherent stability, minimal power loss, and simplicity of operation as well as increased energy storage capacity.
 

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