Flywheel energy storage systems

GPTKB entity

Statements (50)
Predicate Object
gptkbp:instanceOf energy storage system
gptkbp:advantage fast response time
complex mechanical design
long cycle life
high power density
self-discharge due to friction
gptkbp:alternativeTo chemical batteries
compressed air energy storage
pumped hydro storage
gptkbp:canBe data centers
electric vehicles
microgrids
backup power
space missions
energy recovery
composite materials
hybrid vehicles
industrial applications
renewable energy integration
peak shaving
load leveling
magnetic bearings
carbon fiber rotors
steel rotors
transportation applications
gptkbp:capacity proportional to moment of inertia
proportional to square of rotational speed
gptkbp:component Control System
rotor
bearings
motor-generator
vacuum enclosure
gptkbp:convertedTo electrical energy to mechanical energy
mechanical energy to electrical energy
gptkbp:historicalName potter's wheel
railway energy storage
https://www.w3.org/2000/01/rdf-schema#label Flywheel energy storage systems
gptkbp:numberOfLocations kinetic energy
gptkbp:operatesIn vacuum to reduce friction
gptkbp:provides frequency regulation
power quality improvement
short-term energy storage
gptkbp:used_in gptkb:satellite
railway systems
grid energy storage
uninterruptible power supplies
regenerative braking systems
gptkbp:uses rotating mass
gptkbp:bfsParent gptkb:Stator
gptkbp:bfsLayer 6