TechRxiv

Common-Mode Frequency of Power Systems Affected by Voltage Dynamics

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Version 2 2023-11-27, 14:03
Version 1 2023-06-07, 13:47
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posted on 2023-11-27, 14:03 authored by Huisheng Gao, Huanhai XinHuanhai Xin, Guang Hu, Bin Cao, Hui YuanHui Yuan, Linbin Huang

The increasing penetration of converter-interfaced generators (CIGs) in power systems has posed great challenges in frequency stability analysis, as the frequency dynamics of CIGs may be strongly coupled with voltage dynamics. However, existing analytical models for system frequency generally cannot precisely account for the impact of voltage dynamics, leading to potentially incorrect results. The main challenge here is how to understand system frequency in the case of non-constant bus voltages, and how to integrate the voltage dynamics of devices at different bus locations into the system frequency model. To address this issue, this article defines the voltage-influenced common-mode frequency (VCMF), serving as a system frequency analysis model considering voltage dynamics. The VCMF is derived through the decomposition of bus frequency responses, leveraging the connection between the consistent part of bus frequencies and the rotational invariance of power flow. The decomposition process introduces voltage dynamics of devices into the system frequency response, represented as a global term that interconnects all devices through the power network. To address the complexity of this global term, an algebraic graph theory-based network partitioning method is introduced. This method effectively divides the globally coupled term into several locally coupled components, making the analysis of the VCMF more manageable. Finally, simulations are used to validate the proposed methods and confirm their validity.

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Email Address of Submitting Author

xinhh@zju.edu.cn

Submitting Author's Institution

Zhejiang university

Submitting Author's Country

  • China

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