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Optimization voltage-dependent current order limiter parameters for improving the voltage stability of multi-DC receiving-end power grid

Power grids with multi-DC high voltage direct current (HVDC) commonly face challenges such as inadequate voltage support, exacerbated interactions between AC and DC, and complex and variable operation modes. Severe AC faults in these grids can easily trigger consecutive failures in DC commutation, p...

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Bibliographic Details
Published in:Journal of physics. Conference series 2024-09, Vol.2849 (1), p.12064
Main Authors: Zhang, Yijing, Shi, Yanqiang, Liu, Jiachen, Huang, Minjie, Luo, Heyu, Liu, Xiaolong
Format: Article
Language:English
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Summary:Power grids with multi-DC high voltage direct current (HVDC) commonly face challenges such as inadequate voltage support, exacerbated interactions between AC and DC, and complex and variable operation modes. Severe AC faults in these grids can easily trigger consecutive failures in DC commutation, potentially leading to a collapse in the voltage across the entire network. This study introduces a synchronized optimization technique aimed at improving voltage stability within receiving-end power systems by adjusting the parameters of the Voltage Dependent Current Order Limiter (VDCOL). Firstly, principles for adjusting VDCOL parameters are proposed grounded on voltage instability mode. Derived from the sorting outcomes of the multi-infeed short-circuit ratio, parameters of VDCOL are adjusted to ultimately suppress commutation failures and enhance the capability of receiving-end power grids to accept external power. Finally, the simulation result verifies that optimizing VDCOL parameters according to the proposed method significantly increases the capability of receiving-end power grids to accept external power.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2849/1/012064