How important is inertia to a power system?

The importance of inertia to a power system depends on many factors, including the size of the grid and how quickly generators in the grid can detect and respond to imbalances. A grid with slower generators needs more inertia to maintain reliability than a grid that can respond quickly.

Does a grid need more inertia?

A grid with slower generators needs more inertia to maintain reliability than a grid that can respond quickly. Using power electronics, inverter-based resources including wind, solar, and storage can quickly detect frequency deviations and respond to system imbalances.

Why is power system inertia a problem?

The inertia of today׳s power system decreases as more and more converter connected generation units and load are integrated in the power system. This results in a power system which behaves differently from before which causes concerns for many grid operators.

Can wind power plants contribute to current rotational inertia?

The possibilities of wind power plants to contribute to current rotational inertia and participate in frequency control in power systems are presented in this chapter. A methodology to estimate the current rotational inertia of power systems based on their electricity generation mix is proposed. The rest of the chapter is organized as follows.

What is the system inertia of future power systems?

Moreover, the system inertia of future power systems was discussed. It was illustrated that this inertia will mainly consist out of a mix of inertia from conventional power plants and virtual inertia delivered by converter connected generation which employ a (kinetic) energy buffer to contribute to this system inertia.

What is inertia in power plants?

Inertia from rotating electrical generators in fossil, nuclear, and hydroelectric power plants represents a source of stored energy that can be tapped for a few seconds to provide the grid time to respond to power plant or other system failures.