IET Energy Systems Integration (Sep 2024)

A matrix game‐based coordinated optimisation method of distribution networks with multiple flexible resources

  • Yingdong An,
  • Yixin Liu,
  • Li Guo,
  • Xinchen Li,
  • Xiangjun Li,
  • Xuecui Jia,
  • Tengxin Wang,
  • Min Zhang

DOI
https://doi.org/10.1049/esi2.12127
Journal volume & issue
Vol. 6, no. 3
pp. 283 – 296

Abstract

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Abstract The ‘Electric energy substitution’ project in rural areas of northern China aims to replace coal‐fired heating with electric heating. However, this could potentially lead to congestion problems on the local distribution networks (DNs) due to an increase in heating loads. Instead of expanding the lines, flexible resources such as microgrids (MGs) and heat pumps (HPs) could provide auxiliary services in a more cost‐effective manner. A bi‐level optimisation model that coordinates DNs, MGs, and HP clusters is proposed to address this issue. In the lower level, MGs and HP clusters provide auxiliary services through competitive bidding to maximise their own income over multiple periods, considering a series of technical operational constraints and comfort constraints. In the upper level, DNs clear the market based on the bidding information to minimise its operational costs while guaranteeing network constraints. The bi‐level optimisation model is formulated as a multi‐agent matrix game problem, and the Win or Learn Fast‐Policy Hill‐climbing algorithm is used to achieve fast market equilibrium in a decentralised manner. Simulation results demonstrate that the proposed method can improve the revenue of MGs by up to 2.6 times compared to the single period matrix game method, and reduce the convergence time by up to 81.3% compared to the multi‐agent Q‐learning method.

Keywords