Energy-Function Based Pilot Protection Scheme for Hybrid UHVDC Transmission Applying Improved Hausdorff Distance

A hybrid UHVDC transmission system applying LCC as the rectifier and MMC as the inverter combines the advantages of both converter types, which makes this protection scheme more complicated. A new pilot protection scheme for a three-terminal hybrid DC transmission system applying energy functions is...

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Bibliographic Details
Published inCSEE Journal of Power and Energy Systems Vol. 10; no. 3; pp. 891 - 902
Main Authors Zijiang Wang, Youping Fan, Ben Shang, Yinbiao Shu
Format Journal Article
LanguageEnglish
Published China electric power research institute 01.01.2024
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Summary:A hybrid UHVDC transmission system applying LCC as the rectifier and MMC as the inverter combines the advantages of both converter types, which makes this protection scheme more complicated. A new pilot protection scheme for a three-terminal hybrid DC transmission system applying energy functions is proposed. The energy function for LCC is applied to MMC to derive the energy level of the hybrid system. Furthermore, an improved Hausdorff distance (IHD) algorithm is proposed to detect the difference in energy levels between the normal and fault states. An abrupt change in energy level is characterized by IHD change rate. Time points at which the IHD change rate exceeds the threshold at converter stations are applied to determine the fault line and to estimate the fault section. The proposed protection scheme is then verified by a simulation model of the Wudongde ±800 kV three-terminal hybrid UHVDC transmission project. The appropriate sampling frequency is selected for a real-time calculation, and the threshold is selected considering the effect of noise. Results show the proposed scheme can identify and trip fault lines quickly and effectively, even for a 600 Ω grounding fault. Other waveshape similarity algorithms are compared and analyzed. Compared with existing protection schemes, the proposed scheme transmits less data to improve communication speed and reliability.
ISSN:2096-0042
2096-0042
DOI:10.17775/CSEEJPES.2022.01330