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Comprehensive Structural Reliability Assessment When Choosing Switchgear Circuits for 35–220 kV Step-Up Substations

Author

Listed:
  • Aleksandra V. Varganova

    (Power Engineering and Automated Systems Institute, Nosov Magnitogorsk State Technical University, 455000 Magnitogorsk, Russia)

  • Aleksandr S. Irikhov

    (JSC Magnitogorsk GIPROMEZ, 455044 Magnitogorsk, Russia)

  • Anastasia A. Utesheva

    (JSC Magnitogorsk GIPROMEZ, 455044 Magnitogorsk, Russia)

  • Vadim R. Khramshin

    (Power Engineering and Automated Systems Institute, Nosov Magnitogorsk State Technical University, 455000 Magnitogorsk, Russia)

  • Aleksandr S. Maklakov

    (Department of Automation and Control, Moscow Polytechnic University, 107023 Moscow, Russia)

  • Andrey A. Radionov

    (Department of Automation and Control, Moscow Polytechnic University, 107023 Moscow, Russia)

Abstract

The basic requirements for the design of a switchgear for main 35–220 kV step-down substations are reliability and efficiency. Switchgear circuits are chosen depending on the number of supply and transit lines and transformers, the substation’s place in the power supply system, and the area that can be allocated under the substation construction. The substation switchgear’s reliability depends on the circuit type and the equipment to be installed. When designing, as a rule, standard substation switchgear circuit solutions are chosen with often unreasonably overstated reliability indicators and, as a consequence, capital costs. This paper explores the issues of automated choice of the best option for the 35–220 kV substation switchgear circuit, considering its structural reliability and additional costs for the area allocated under the electrical unit. A distinctive feature of the work is a comprehensive accounting of the reliability indicators of the substation and the influence of the layout of switchgear circuits as a whole on the performance indicators of future electrical installations. The developed technique is used at the pre-design stages and allows for reducing further capital, maintenance, and repair costs for electrical units by up to 14.5%. The developed approach is implemented in the original TER CAD software product.

Suggested Citation

  • Aleksandra V. Varganova & Aleksandr S. Irikhov & Anastasia A. Utesheva & Vadim R. Khramshin & Aleksandr S. Maklakov & Andrey A. Radionov, 2024. "Comprehensive Structural Reliability Assessment When Choosing Switchgear Circuits for 35–220 kV Step-Up Substations," Energies, MDPI, vol. 17(7), pages 1-15, March.
  • Handle: RePEc:gam:jeners:v:17:y:2024:i:7:p:1630-:d:1366088
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    References listed on IDEAS

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    1. Kirill Varnavskiy & Fedor Nepsha & Qingguang Chen & Alexander Ermakov & Sergey Zhironkin, 2023. "Reliability Assessment of the Configuration of Dynamic Uninterruptible Power Sources: A Case of Data Centers," Energies, MDPI, vol. 16(3), pages 1-15, February.
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