The global transition to renewable energy faces a critical challenge: maintaining stable power grids as we integrate intermittent solar/wind generation and growing numbers of electric vehicles. This ...

Researchers have modeled how the combination of a virtual oscillator control mechanism and a cascaded sliding mode control can help regulate voltage and frequency in a distributed-solar microgrid.

As we continue to work toward a more sustainable future globally, demand for renewable energy integration is increasing. This requires more flexibility in grid infrastructure and the ability to add ...

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Customers without electricity for days or weeks? Does that happen in the U.S. in the 21st century? Increasingly, the answer is yes. Wildfires, hurricanes, ice storms, floods and other events seem to ...

Utilities are under growing pressure to deliver increasing power to more places. Severe weather, electric vehicles, scorching heat, aging infrastructure, and an influx of new data centers and ...

What is a dc microgrid? Different power electronic converter architectures used for microgrids. Microgrids are essentially a network of loads and local power generations (distributed generations), ...

From the world’s first 1000kV UHV AC lines to the most advanced passenger railways, Kehui’s mission of "Innovation Building Dreams" continues to deliver the reliable, high-efficiency technological ...

Lunar microgrids, or remote microgrids detached from any utility grid, are fully capable of powering and monitoring many different infrastructures, even in space. NASA recently revealed plans to ...