Power system stability and control encompass a broad spectrum of methodologies and technologies aimed at assuring reliable and secure operation of modern electrical grids. With the increasing ...

The Control and Power Systems Laboratory (CAPS) focuses on advanced control systems, optimisation, and cybersecurity with applications to power systems, smart grids, microgrids, and power electronics ...

In the electronic field, an oscillator is a circuit capable of producing a self-sustained sinusoidal signal. In a lot of configurations, cranking up the oscillator involves the noise level inherent to ...

Distributed control systems (DCSs) and programmable logic controllers (PLCs) have been commonplace in power plants for decades, but the technology has not been stagnant. Today’s systems are beginning ...

One concern some observers raise about the growth of inverter-based resources, such as solar, wind, and battery storage, supplying the power grid is that they don’t provide inertia. Inertia has ...

Over the past decade, those of us in the power industry have witnessed a remarkable transformation. Power needs have not only grown, but with each generation they have advanced — driven by smarter ...

Under given scenario, accident type, and clearance time, calculate the first critical point and obtain the initial operating area. Then space division method is promoted to compress search space for ...

In many power systems around the world, a major transformation is underway. Proportions of synchronous generation, generally from coal and gas-fired power plants, are rapidly reducing. At the same ...

Massive integration of inverter-based renewable energy systems has been displacing conventional generating units (mainly synchronous generators) and causing a reduction in power system inertia. This ...

Distributed control systems and programmable logic controllers have long been used to regulate power plant operations, but advanced techniques that have been proven in refining and other industries ...