The time it takes to replace dispersed energy from a turning loaded flywheel depends on several factors, including the flywheel's design, the amount of energy being replenished, and the power input available for recharging. Typically, the energy can be restored in a matter of seconds to minutes, depending on the efficiency of the system and the power source used. For example, a flywheel energy storage system can recharge quickly if connected to a high-capacity power source. However, precise durations will vary based on specific system parameters and operational conditions.
kinetic
flywheel is connected to the crank shaft it stores the energy when in excess and deliver when engine req it
Flywheel is used to store Rotational Energy.
The newest facts about mechanical energy is Hydraulic Flywheel energy. Technology Tell has an article that was published March 15th, 2013 that gives details about flywheel energy.
To store the energy of the drive shaft
The flywheel has kinectic energy that keeps the engine turningbetween firing strokes.
One example of a store of kinetic energy is a spinning flywheel.
A flywheel is a rotating mechanical device that stores energy by spinning. It helps to stabilize and regulate the speed of a machine by storing and releasing energy as needed. In mechanical systems, a flywheel can smooth out fluctuations in power and provide momentum for continuous operation.
The purpose of the flywheel is to moderate and smooth out the energy that is delivered from the motor to the machine. It does this by storing excess kinetic energy for intermittent use. The effect is to smooth out the energy delivery so the ride (if the machine is a car) is smooth instead of jerky.
sumerians invenent the poters wheel
energy
A flywheel battery for home energy storage offers benefits such as high efficiency, long lifespan, fast response times, and minimal maintenance requirements.