Research on Distribution Substation Topology Identification Methods

Authors

  • Hu Weidong Automatization Engineering College, Beijing Information Science & Technology University, Haidian 100192, Beijing, China
  • Zhao Bo Automatization Engineering College, Beijing Information Science & Technology University, Haidian 100192, Beijing, China
  • Chen Jie China Electric Power Research Institute, Haidian 100192, Beijing, China

DOI:

https://doi.org/10.13052/dgaej2156-3306.3932

Keywords:

digital substation, improved matrix method, Packet Loss Rate Conditional Probability Minimization Theorem, automatic topology recognition

Abstract

With the advancement of digital transformation in distribution substations, a large number of smart devices are being integrated into substations. Addressing the challenges of automatic topology recognition and the issue of unstable recognition accuracy in distribution substations has become crucial. This paper proposes a substation topology recognition method based on an improved matrix approach and the Minimum Conditional Probability of Packet Loss Theorem. The improved matrix approach is utilized to calculate the topological signals, enabling automatic bottom-up topology recognition within the substation. The application of the Minimum Conditional Probability of Packet Loss Theorem in processing topological data significantly enhances the accuracy of substation topology recognition, reducing the impact of external factors on recognition accuracy. Experimental validation demonstrates that the proposed method is highly feasible and exhibits fault tolerance, indicating practical engineering applications.

Downloads

Download data is not yet available.

Author Biography

Hu Weidong, Automatization Engineering College, Beijing Information Science & Technology University, Haidian 100192, Beijing, China

Hu Weidong received the bachelor’s degree in Electronic Information Engineering from North China Institute of Science and Technology in 2021, He is currently studying as a graduate student at the Automatization Engineering College of Beijing Information Science & Technology University. His research direction is analysis of digital distribution areas.

References

Wu D, Su J, Chen Z, et al. Effects of Distributed Generation on Carbon Emission Reduction of Distribution Network[J]. Distributed Generation and Alternative Energy Journal, 2023, 39(1):57–82.

Ma Z, Wang Z, Zhang Y. A bionic-intelligent scheduling algorithm for distributed power generation system[J]. Distributed Generation and Alternative Energy Journal, 2022, 37(2):215–236.

Z Zhang, C Kang, Challenges and prospects for constructing the new -type power system towards a carbon neutrality future[J]. Proceedings of the CSEE, 2022, 42(8):2806–2819.

Y Liu, Low voltage topology test determination method and low voltage single line diagram demand analysis under the background of distribution information integration[J]. Technology Innovation and Application, 2014(29):184–185.

P Fang, S Xu, C Shen, et al., Research on productization of real-time topology generation platform for low voltage power grid[J]. Technology Innovation and Application, 2019(36): 63–65.

Y Ba, A method for topology and line impedance identification of low-voltage grid in distribution area: China, CN201910857146.0[P]. 2020-01-03.

Kashyap, Yang, CW, et al., (2015). Automated fault location and isolation in distribution grids with distributed control and unreliable communication. IEEE T IND ELECTRON, 2015, 62(4)(–), 2612–2619.

Wang Z, Jiao Z, Liu L, et al. Design and research of power information acquisition system for smart grid[J]. Distributed Generation and Alternative Energy Journal, 2022, 37(2):185–198.

Z Wu, H Long, C Chen, Line Aging Assessment in Distribution Network Based on Topology Verification and Parameter Estimation[J]. Journal of Modern Power Systems and Clean Energy, 10 [2023-11-06]. DOI: 10.35833/MPCE.2021.000165.

Z Xu, Application analysis of area users identify apparatus[J]. Metrology & Measurement Technique, 2009, 36(11): 26–28.

Y Cai, J LI, J Meng, et al., Power line carrier OFDM technology application in low voltage courts meter detection[J]. China Electric Power, 2015(2): 33–35.

J Huang, Q Meng, S Wu, et al., Operation state evaluation of distribution network based on attribute mathematics[J]. Electric Power, 2019, 52(2):104–110, 118.

F He, J Chen, Q Li, et al., Application and development of internet of things in smart grid[J]. Power System Protection and Control, 2020, 48(3):58–69.

X Meng, Li Yao, J Lin, As-sessment of black -start schemes for power grid based on relational matrix analysis[J]. Advanced Technology of Electrical Engineering and Energy, 2007, 26(4):65–70.

Y Zhou, B Zhou, Y Xing, Graphical power network topology analysis based on adjacency matrix[J]. Power System Protection and Control, 2009, 37(17):49–52, 56.

J Zhong, X Xiong, Y He, et al., Plug-and-play and topology identification method for intelligent terminals in station area[J]. Automation of Electric Power Systems, 2021, 45(10):166–173.

Zhu H, Li Z, Chen S, et al. Application of demand-side technology in power system intelligent regulation[J]. Distributed Generation and Alternative Energy Journal, 2022, 37(2):145–158.

W Liu, Y Lu, M Yang, et al., (2022). Differentiated local controls for distributed generators in active distribution networks considering cyber failures. International Journal of Electrical Power & Energy Systems, 135(11), 107569.

X Xu, Z Ma, A novel algorithm for fault location in a distribution network based on topology division[J]. Electric Power, 2012, 45(5): 20–24.

Y Wu, Distributed topology identification and application method of smart distribution network [J]. Power System Protection and Control, 2019, 47(16):136–142.

Downloads

Published

2024-07-16

How to Cite

Weidong, H., Bo, Z., & Jie, C. (2024). Research on Distribution Substation Topology Identification Methods. Distributed Generation &Amp; Alternative Energy Journal, 39(03), 425–440. https://doi.org/10.13052/dgaej2156-3306.3932

Issue

2024: Vol 39 Iss 3

Section

Renewable Power & Energy Systems