Flywheel energy
storage works by accelerating a cylindrical assembly called a rotor (flywheel)
to a very high speed and maintaining the energy in the system as rotational
energy. The energy is converted back by slowing down the flywheel. The flywheel
system itself is a kinetic, or mechanical battery, spinning at very high speeds
to store energy that is instantly available when needed.
The primary use at the moment appears to be frequency
regulation for electricity generation, a well-known problem with wind and
solar, especially solar. As Beacon Power says:-
To ensure a functional
and reliable grid, the Independent System Operators (ISOs) that operate the
various regional grids must maintain their electric frequency very close to 60
hertz (Hz), or cycles per second (50 Hz in Europe and elsewhere). When the
supply of electricity exactly matches the demand (or "load"), grid
frequency is held at a stable level. Grid operators, therefore, seek to
continuously balance electricity supply with load to maintain the proper
frequency. They do this by directing about one percent of total generation
capacity to increase or decrease its power output in response to frequency
deviations.
Not all generators can
operate reliably in such a variable way. Changing power output causes greater
wear and tear on equipment, and fossil generators that perform frequency
regulation incur higher operating costs due to increased fuel consumption and
maintenance costs. They also suffer a
significant loss in "heat rate" efficiency and produce greater
quantities of CO2 and other unwanted emissions when throttling up and down to
perform frequency regulation services (my emphasis).
Flywheel storage technology must add substantial frequency regulation costs
to wind and solar. In the case of wind in the UK, these are costs which its proponents have so far
succeeded in spreading around elsewhere.
All original material is copyright of its author. Fair use permitted. Contact via comment. Unless indicated otherwise, all internet links accessed at time of writing. Nothing here should be taken as personal advice, financial or otherwise. No liability is accepted for third-party content, whether incorporated in or linked to this blog; or for unintentional error and inaccuracy. The blog author may have, or intend to change, a personal position in any stock or other kind of investment mentioned.
5 comments:
A practical use for the London Eye?
Sackers - good idea! Or convert it to a treadmill and generate power when the wind drops.
"Flywheel energy storage works by accelerating a cylindrical assembly called a rotor (flywheel) to a very high speed...."
Flywheels are great. Until they go wrong. I've seen the energy released from a fracturing flywheel. It isn't pretty. A Flywheel wrecked two, one Megawatt diesel generators, and set the compartment on fire.
Uh-huh.
Another way to waste taxpayers' money trying to fix a problem that was originally caused by wasting taxpayers' money.
Why not just build proper power stations in the first place?
FE - the flywheel is made of a composite material which supposedly breaks up into hot fluff if it fails physically. At least that's the claim.
WY - I like the way it highlights the real cost of wind installations.
Post a Comment