Fluctuations and Control: Understanding the Frequency of Power Grids

Leonardo Rydin Gorjão; Jacques M. Maritz; Benjamin Schäfer; Dirk Witthaut

doi:10.1051/epn/2025510

Fluctuations and Control: Understanding the Frequency of Power Grids

Leonardo Rydin Gorjão
, Jacques M. Maritz
, Benjamin Schäfer
, Dirk Witthaut

Research Program Governance Research and Environmental Sciences for Action and Transitions (GREAT)

Research output: Contribution to journal › Article › Popular

Abstract

The grid frequency is the power system’s heartbeat, gauging the balance between generation and demand. In this article, we show how frequency dynamics and control can be understood in terms of a paradigmatic model of theoretical physics: the overdamped harmonic oscillator. Using frequency measurements and tools from complex systems, we can see when control steps in, why lower mechanical inertia makes modern grids more jittery, and how the “noise” in the frequency can be used as a clue for better diagnoses and smarter control — especially in renewable resources-dependent systems.

Original language	English
Pages (from-to)	17-20
Journal	Europhysics News
Volume	56
Issue number	5
DOIs	https://doi.org/10.1051/epn/2025510
Publication status	Published - 18 Dec 2025

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abstract = "The grid frequency is the power system{\textquoteright}s heartbeat, gauging the balance between generation and demand. In this article, we show how frequency dynamics and control can be understood in terms of a paradigmatic model of theoretical physics: the overdamped harmonic oscillator. Using frequency measurements and tools from complex systems, we can see when control steps in, why lower mechanical inertia makes modern grids more jittery, and how the “noise” in the frequency can be used as a clue for better diagnoses and smarter control — especially in renewable resources-dependent systems.",

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AB - The grid frequency is the power system’s heartbeat, gauging the balance between generation and demand. In this article, we show how frequency dynamics and control can be understood in terms of a paradigmatic model of theoretical physics: the overdamped harmonic oscillator. Using frequency measurements and tools from complex systems, we can see when control steps in, why lower mechanical inertia makes modern grids more jittery, and how the “noise” in the frequency can be used as a clue for better diagnoses and smarter control — especially in renewable resources-dependent systems.

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Fluctuations and Control: Understanding the Frequency of Power Grids

Abstract

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