August 17, 2023
Journal Article

Transmission-distribution long-term volt-var planning considering reactive power support capability of distributed PV

Abstract

High penetration of grid-edge, inverter-based photovoltaic (PV) can cause significant voltage fluctuations not only at the distribution but also at the sub-transmission levels due to PV output intermittency. Traditional reactive power planning approaches do not consider intermittency, nor the possibility of coordinating the control of existing and future volt-ampere reactive resources. This paper proposes a reactive power planning tool for sub-transmission systems to mitigate voltage violations and fluctuations caused by high PV penetration and intermittency with a minimum investment cost. The planning tool coordinates with an optimization-based volt-var operational tool for: a) modeling the coordination of all existing var assets in both sub-transmission and distribution systems to reduce the need of new equipment, and b)selecting a set of scenarios with voltage violations, derived from PV intermittency c) testing the final investment decision. The tool obtains an investment need for each intermittency scenario with a proposed optimal power-flow framework with efficient techniques to handle a high number of discrete variables. Two options are provided for final planning decision: i) a conservative direct combination of investment need solutions and ii) a machine learning-based selection of representative investment needs at most time steps. The final investment decision options are verified using a realistic large-scale sub-transmission system and 5-minute PV and load data. The results show a significant voltage performance improvement with a lower investment cost for additional var equipment compared to conventional approaches.

Published: August 17, 2023

Citation

Nguyen Q.H., X. Ke, N.A. Samaan, J.T. Holzer, M.A. Elizondo, H. Zhou, and Z. Hou, et al. 2022. Transmission-distribution long-term volt-var planning considering reactive power support capability of distributed PV. International Journal of Electrical Power & Energy Systems 138. PNNL-SA-163369. doi:10.1016/j.ijepes.2022.107955