As power systems integrate increasing shares of inverter‐interfaced renewable energy, the traditional inertia provided by rotating machines diminishes, challenging frequency and voltage stability.

Synchronous generators are critical assets in modern power systems, supplying reliable electricity across thermal, hydroelectric and renewable installations. Ensuring their continuous operation ...

As more renewable energy sources and battery storage units are specified and incorporated into power systems, consultant specifying engineers are faced with many challenges that could impact the ...

As global power grids transition from centralized fossil-based generation to decentralized, renewable sources, system stability has become a critical challenge. The phasing out of synchronous ...

In simple terms, inertia refers to the energy stored in the rotating masses of synchronous generators, typically found in traditional thermal power plants. This stored kinetic energy acts as a cushion ...

It hasn’t been that long since humans figured out how to create power grids that integrated multiple generators and consumers. Ever since AC won the battle of the currents, grid operators have had to ...

Transgrid – the owner of the power grid in New South Wales, Australia – aims to roll out up to 14 synchronous condensers and 4.8 GW of batteries with “grid-forming” capability to stabilize the ...

As coal and gas plants are taken offline to be replaced by wind and solar, grid stability and system strength can become serious challenges. This is due to the inherent inertia provided by rotating ...

Data centers requiring nearly 100GW of additional power capacity will be added to the market by 2030. As infrastructure races ...

ENTSO-E has announced that the Agreement on the Conditions for a Future Synchronous Interconnection of the power system of the Baltic States and the power system of Continental Europe entered into ...