Zhejiang dianli (Jun 2024)

An integration capacity planning method for distributed photovoltaic sources based on generalized Benders decomposition

  • CHEN Zhuo,
  • GUO Yinyuan,
  • WEN Yanjun,
  • MA Liujun,
  • WANG Liutao,
  • JI Xiaopeng

DOI
https://doi.org/10.19585/j.zjdl.202406004
Journal volume & issue
Vol. 43, no. 6
pp. 31 – 40

Abstract

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In response to the challenges of large-scale integration of distributed photovoltaic (PV) sources into distribution networks, an integration capacity planning method for distributed photovoltaic sources based on generalized Benders decomposition (GBD) is proposed. The approach utilizes a data-driven sequential selection method to determine the optimal sequence of variables in the C-Vine Copula model. In combination with Latin hypercube sampling (LHS) and scenario evaluation indicators, typical load-resource correlation scenarios are constructed. Building upon these generated typical scenarios, the paper has established a photovoltaic source integration planning model based on the GBD. This model comprises a main problem for photovoltaic source planning and a sub-problem for distribution network operation, solved using linear programming and optimal power flow methods, respectively. Case studies are conducted on the grid framework of the IEEE 33-bus system. The results demonstrate that the proposed method for generating typical scenarios reduces resource and load errors by over 50% compared to traditional methods. Moreover, the computational complexity of the planning model is reduced by 11%, and the computation time is shortened by 9% compared to previous approaches.

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