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A Multiperiod Consensus-Based Transactive Energy System for Unbalanced Distribution Networks

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  • Cheng, Rui
  • Tesfatsion, Leigh
  • Wang, Zhaoyu

Abstract

This study develops a consensus-based transactive energy system design managed by an independent distribution system operator (DSO) for an unbalanced radial distribution network. The network is populated by welfare-maximizing customers with price-sensitive and fixed (non-price-sensitive) demands who make multiple successive power decisions during each real-time operating period OP. The DSO and customers engage in an iterative negotiation process in advance of each OP to determine retail price-to-go sequences for OP that align customer power decisions with network reliability constraints in a manner that respects customer privacy. The convergence properties of a dual decomposition algorithm developed to implement this negotiation process are analytically established. A case study is presented for an unbalanced 123-bus radial distribution network populated by household customers that demonstrates the practical effectiveness of the design.

Suggested Citation

  • Cheng, Rui & Tesfatsion, Leigh & Wang, Zhaoyu, 2021. "A Multiperiod Consensus-Based Transactive Energy System for Unbalanced Distribution Networks," ISU General Staff Papers 202104230700001126, Iowa State University, Department of Economics.
  • Handle: RePEc:isu:genstf:202104230700001126
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    References listed on IDEAS

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