Energies (Apr 2019)

Full-Observable Three-Phase State Estimation Algorithm Applied to Electric Distribution Grids

  • Thiago Mota Soares,
  • Ubiratan Holanda Bezerra,
  • Maria Emília de Lima Tostes

DOI
https://doi.org/10.3390/en12071327
Journal volume & issue
Vol. 12, no. 7
p. 1327

Abstract

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This paper proposes the development of a three-phase state estimation algorithm, which ensures complete observability for the electric network and a low investment cost for application in typical electric power distribution systems, which usually exhibit low levels of supervision facilities and measurement redundancy. Using the customers´ energy bills to calculate average demands, a three-phase load flow algorithm is run to generate pseudo-measurements of voltage magnitudes, active and reactive power injections, as well as current injections which are used to ensure the electrical network is full-observable, even with measurements available at only one point, the substation-feeder coupling point. The estimation process begins with a load flow solution for the customers´ average demand and uses an adjustment mechanism to track the real-time operating state to calculate the pseudo-measurements successively. Besides estimating the real-time operation state the proposed methodology also generates nontechnical losses estimation for each operation state. The effectiveness of the state estimation procedure is demonstrated by simulation results obtained for the IEEE 13-bus test network and for a real urban feeder.

Keywords