Energy-function-based control of converter-connected renewable energy sources for the maximum transient-stability enhancement of an electric-power system

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

🔬研究者:電力系統の過渡安定性解析において、エネルギー関数を再生可能エネルギー源に拡張する理論的枠組みを示しており、制御設計の新たな方向性を提示する。

🏢実務担当者:系統運用者にとって、コンバータ接続電源の制御パラメータ設定における有効電力の活用可能性を示す参考資料となる。

The decrease of the dynamic stability of an electric-power system due to the inclusion of converter-connected renewable energy sources (Conv-RESs) can be mitigated with their proper control. One solution that offers globally optimal control is the application of energy functions (EFs). However, proper EFs for a Conv-RES must be available. In this paper, such EFs were developed and applied to the assessment and improvement of transient stability. The Conv-RES’s EFs were constructed for an electric-power system with a preserved structure—that is, without requiring network reduction. The use of EFs in controlling a Conv-RES demonstrated how these sources can enhance system stability in a way that differs from the current requirements of transmission-system operators. For the maximum transient-stability enhancement, besides the reactive-power injection that has the main role, a small share of active power should be applied. However, a suitable strategy (like the one proposed in this paper) should be used to control the share and the direction (generation or consumption) of the active power. The proposed control strategy can be used as a reference for a Conv-RES’s simpler and more applicable control strategies like the solely reactive power injection that is often required by transmission-system operators.

• Research Square https://doi.org/10.22541/authorea.15003202/v1first seen 2026-05-14 21:21:20