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Market Clearing and Settlement Using Participant Based Distributed Slack Optimal Power Flow Model for a Double Sided Electricity Auction Market–Part II

Sundaram, Arunachalam; Abdullah Khan, Mohamed

Authors

Mohamed Abdullah Khan



Abstract

Even though non-linear Optimal Power Flow model proposed in part I of this paper provide accurate results there are difficulties in solving a full non-linear Optimal Power Flow model since it is a very time consuming. Due to speed and robustness, Linear Programming model is preferred by the system operators for nodal price calculations. It is a challenge to incorporate transmission losses into the losses linear DC power model. In this paper to model line flow operating limit inequality constraint a lossless Participant Based Distributed Slack DC Power Flow model is derived from Newton-Raphson state correction scheme used in part I of this work. An equivalent lumped linear model for the Participant Based Distributed Slack Lumped Nonlinear Optimal Power Flow model called Participant Based Distributed Slack Lumped Linear Optimal Power Flow model is developed in part II of this paper. The results for market clearing and settlement of double sided electricity market by the proposed lumped linear model are compared with the nonlinear model proposed in part I of this work using case studies on PJM system, IEEE 30 bus system and IEEE 118 bus system. The results obtained indicate the speed and robustness of the proposed linear model.

Citation

Sundaram, A., & Abdullah Khan, M. (2018). Market Clearing and Settlement Using Participant Based Distributed Slack Optimal Power Flow Model for a Double Sided Electricity Auction Market–Part II. Electric Power Components and Systems, 46(5), 533–543. https://doi.org/10.1080/15325008.2018.1460640

Journal Article Type Article
Acceptance Date Mar 20, 2018
Online Publication Date Jun 8, 2018
Publication Date 2018
Deposit Date Jul 18, 2024
Journal Electric Power Components and Systems
Print ISSN 1532-5008
Publisher Taylor and Francis
Peer Reviewed Peer Reviewed
Volume 46
Issue 5
Pages 533–543
DOI https://doi.org/10.1080/15325008.2018.1460640
Keywords Optimal Power Flow, DCOPF, ACOPF, Market Center