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High-dimension tie-line security regions for renewable accommodations

Author

Listed:
  • Lin, Wei
  • Jiang, Hua
  • Jian, Haojun
  • Xue, Jingwei
  • Wu, Jianghua
  • Wang, Chongyu
  • Lin, Zhenjia

Abstract

Tie-line power exchanges among regional power systems facilitate renewable accommodations. Power exchanges can be calculated based on a tie-line security region that provides the feasible region of coupling parameters. However, a tie-line security region is a high-dimension polytope due to multiple time periods and border buses in power system operations, generally leading to a heavy computational burden. A fast calculation for high-dimension tie-line security regions is studied in this paper. The high-dimension polytope across all the time periods is decomposed as a Cartesian production of lower-dimension polytopes at each time period by leveraging dispatch levels of generations. For each lower-dimension polytope, the computational burden brought by multiple border buses is alleviated by aggregating tie-line power. Minimum renewable curtailments are preserved in the tie-line security region by adding an additional dimension, providing the information for renewable accommodations based on the tie-line security region. For coupling parameters within our tie-line security region, a feasible decision of the regional power system always exists. Finally, a decentralized and non-iterative framework is demonstrated to utilize our tie-line security region for renewable accommodations in an interconnected power system. The effectiveness of our methods is corroborated in the IEEE 9-bus system, a 661-bus utility system, and a five-region system.

Suggested Citation

  • Lin, Wei & Jiang, Hua & Jian, Haojun & Xue, Jingwei & Wu, Jianghua & Wang, Chongyu & Lin, Zhenjia, 2023. "High-dimension tie-line security regions for renewable accommodations," Energy, Elsevier, vol. 270(C).
    • Handle: RePEc:eee:energy:v:270:y:2023:i:c:s0360544223002815
    DOI: 10.1016/j.energy.2023.126887
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    References listed on IDEAS

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