Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching

Cong Li; Zhenjun Gao; Xiaoqi Zhang; Chao Huo; Xuetao Dong; Ping Wei; Chao Duan

doi:10.1109/PSET66242.2025.11296435

Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching

Cong Li
, Zhenjun Gao
, Xiaoqi Zhang
, Chao Huo
, Xuetao Dong
, Ping Wei
, Chao Duan

School of Electrical Engineering

Xi'an Jiaotong University
State Grid Corporation of China

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

With the large-scale integration of renewable energy generation (REG) and the rapid development of power electronic devices, frequency stability problem has become increasingly prominent. As one of the evaluation indicators for frequency security, the post-fault steady-state frequency is primarily governed by the steady-state characteristics of various dynamic components. However, current calculation methods suffer from either inadequate accuracy or prolonged computation periods. To address this, the paper proposes a post-fault equilibrium point calculation model that incorporates state switching of all components in power system by introducing the steady-state frequency variable. This approach transforms the steady-state frequency calculation problem into the traditional power flow analysis problem, both in the form of nonlinear equations. Then it is solved by alternating iteration method utilizing the frequency deviation of the synchronous machine on slack bus. The proposed method is validated on the modified IEEE 39-bus system, proving both the accuracy and computational efficiency of the frequency equilibrium point calculation approach.

Original language	English
Title of host publication	2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	389-395
Number of pages	7
ISBN (Electronic)	9798331537289
DOIs	https://doi.org/10.1109/PSET66242.2025.11296435
State	Published - 2025
Event	4th International Conference on Power Systems and Electrical Technology, PSET 2025 - Tokyo, Japan Duration: 4 Aug 2025 → 8 Aug 2025

Publication series

Name	2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025

Conference

Conference	4th International Conference on Power Systems and Electrical Technology, PSET 2025
Country/Territory	Japan
City	Tokyo
Period	4/08/25 → 8/08/25

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Alternating iteration method
Equilibrium point
Frequency stability
State switching
Steady-state frequency

Access to Document

10.1109/PSET66242.2025.11296435

Cite this

Li, C., Gao, Z., Zhang, X., Huo, C., Dong, X., Wei, P., & Duan, C. (2025). Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching. In 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025 (pp. 389-395). (2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/PSET66242.2025.11296435

Li, Cong ; Gao, Zhenjun ; Zhang, Xiaoqi et al. / Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching. 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025. Institute of Electrical and Electronics Engineers Inc., 2025. pp. 389-395 (2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025).

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title = "Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching",

abstract = "With the large-scale integration of renewable energy generation (REG) and the rapid development of power electronic devices, frequency stability problem has become increasingly prominent. As one of the evaluation indicators for frequency security, the post-fault steady-state frequency is primarily governed by the steady-state characteristics of various dynamic components. However, current calculation methods suffer from either inadequate accuracy or prolonged computation periods. To address this, the paper proposes a post-fault equilibrium point calculation model that incorporates state switching of all components in power system by introducing the steady-state frequency variable. This approach transforms the steady-state frequency calculation problem into the traditional power flow analysis problem, both in the form of nonlinear equations. Then it is solved by alternating iteration method utilizing the frequency deviation of the synchronous machine on slack bus. The proposed method is validated on the modified IEEE 39-bus system, proving both the accuracy and computational efficiency of the frequency equilibrium point calculation approach.",

keywords = "Alternating iteration method, Equilibrium point, Frequency stability, State switching, Steady-state frequency",

author = "Cong Li and Zhenjun Gao and Xiaoqi Zhang and Chao Huo and Xuetao Dong and Ping Wei and Chao Duan",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 4th International Conference on Power Systems and Electrical Technology, PSET 2025 ; Conference date: 04-08-2025 Through 08-08-2025",

year = "2025",

doi = "10.1109/PSET66242.2025.11296435",

language = "英语",

series = "2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025",

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Li, C, Gao, Z, Zhang, X, Huo, C, Dong, X, Wei, P & Duan, C 2025, Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching. in 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025. 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025, Institute of Electrical and Electronics Engineers Inc., pp. 389-395, 4th International Conference on Power Systems and Electrical Technology, PSET 2025, Tokyo, Japan, 4/08/25. https://doi.org/10.1109/PSET66242.2025.11296435

Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching. / Li, Cong; Gao, Zhenjun; Zhang, Xiaoqi et al.
2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025. Institute of Electrical and Electronics Engineers Inc., 2025. p. 389-395 (2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching

AU - Li, Cong

AU - Gao, Zhenjun

AU - Zhang, Xiaoqi

AU - Huo, Chao

AU - Dong, Xuetao

AU - Wei, Ping

AU - Duan, Chao

PY - 2025

Y1 - 2025

N2 - With the large-scale integration of renewable energy generation (REG) and the rapid development of power electronic devices, frequency stability problem has become increasingly prominent. As one of the evaluation indicators for frequency security, the post-fault steady-state frequency is primarily governed by the steady-state characteristics of various dynamic components. However, current calculation methods suffer from either inadequate accuracy or prolonged computation periods. To address this, the paper proposes a post-fault equilibrium point calculation model that incorporates state switching of all components in power system by introducing the steady-state frequency variable. This approach transforms the steady-state frequency calculation problem into the traditional power flow analysis problem, both in the form of nonlinear equations. Then it is solved by alternating iteration method utilizing the frequency deviation of the synchronous machine on slack bus. The proposed method is validated on the modified IEEE 39-bus system, proving both the accuracy and computational efficiency of the frequency equilibrium point calculation approach.

AB - With the large-scale integration of renewable energy generation (REG) and the rapid development of power electronic devices, frequency stability problem has become increasingly prominent. As one of the evaluation indicators for frequency security, the post-fault steady-state frequency is primarily governed by the steady-state characteristics of various dynamic components. However, current calculation methods suffer from either inadequate accuracy or prolonged computation periods. To address this, the paper proposes a post-fault equilibrium point calculation model that incorporates state switching of all components in power system by introducing the steady-state frequency variable. This approach transforms the steady-state frequency calculation problem into the traditional power flow analysis problem, both in the form of nonlinear equations. Then it is solved by alternating iteration method utilizing the frequency deviation of the synchronous machine on slack bus. The proposed method is validated on the modified IEEE 39-bus system, proving both the accuracy and computational efficiency of the frequency equilibrium point calculation approach.

KW - Alternating iteration method

KW - Equilibrium point

KW - Frequency stability

KW - State switching

KW - Steady-state frequency

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DO - 10.1109/PSET66242.2025.11296435

M3 - 会议稿件

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T3 - 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025

SP - 389

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BT - 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 4th International Conference on Power Systems and Electrical Technology, PSET 2025

Y2 - 4 August 2025 through 8 August 2025

ER -

Li C, Gao Z, Zhang X, Huo C, Dong X, Wei P et al. Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching. In 2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025. Institute of Electrical and Electronics Engineers Inc. 2025. p. 389-395. (2025 4th International Conference on Power Systems and Electrical Technology, PSET 2025). doi: 10.1109/PSET66242.2025.11296435

Rapid Evaluation of Post-fault Steady-state Frequency Considering State Switching

Abstract

Publication series

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UN SDGs

Keywords

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