October 1, 2024
Conference Paper

Development of a Distribution Optimal Power Flow Federate for Open-Source OEDI-SI Platform

Abstract

Increasing numbers of distributed generators in the electric power distribution networks require developing a control strategy to optimize solutions in real time. Linearized optimal distribution flow development has seen growth and acceptance in the distribution systems literature for efficiently modeling the \glspl{opf} for distribution systems. This paper examines the implementation and integration procedure for linearized optimal distribution flow federate to \gls{oedisi} platform. Specifically, we discuss i) the usage of the \gls{oedisi} platform, ii) obtaining a tractable solution using developed \gls{opf} federate, and iii) validation of solutions and bench-marking the \gls{oedisi} platform with developed \gls{opf} federate using OpenDSS. In brief, we demonstrate how a general linearized optimal distribution flow federate can be developed and integrated with a co-simulation environment to mimic real-world examples. The efficacy of the proposed method is demonstrated using the IEEE 123-bus test system under different scenarios to obtain a tractable solution and compare its results.

Published: October 1, 2024

Citation

Sadnan R., T. Slay, S. Poudel, B. Mitra, A.P. Reiman, J.D. Follum, and J. Mckinsey, et al. 2024. Development of a Distribution Optimal Power Flow Federate for Open-Source OEDI-SI Platform. In IEEE Green Technologies Conference (GreenTech 2024), April 3-5, 2024, Springdale, AR, 183-187. Piscataway, New Jersey:IEEE. PNNL-SA-194580. doi:10.1109/GreenTech58819.2024.10520516

Research topics