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Main Authors: Haag, Eric, Chen, Yuhao, Venkataramanan, Giri, Singh, Manish K.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.15685
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author Haag, Eric
Chen, Yuhao
Venkataramanan, Giri
Singh, Manish K.
author_facet Haag, Eric
Chen, Yuhao
Venkataramanan, Giri
Singh, Manish K.
contents The rapid growth of large data center loads and inverter-based generation is increasing the stress on transmission networks, while expanding grid capacity at the required pace remains challenging. Power flow controllers (PFCs) that adjust effective line reactances to redistribute flows are often viewed as an interim solution to improve transmission network utilization. Traditional flexibility metrics and analysis approaches for PFCs focus on a limited number of operating points and contingencies. Towards gaining system-wide insights, this paper introduces a framework to quantify network flow controllability- the extent to which line flows can be reshaped through reactance adjustments. We derive analytical results demonstrating that installing PFCs on all lines enables complete controllability of feasible flow patterns. Building on these, we conduct empirical studies on the IEEE 39-bus system to examine how controllability varies with the number of PFCs and their reactance adjustment range. These analyses employ a mixed-integer linear program to optimize the siting and sizing of PFCs. Finally, we validate findings under AC power flow physics using an optimization routine that steers flows toward desired setpoints.
format Preprint
id arxiv_https___arxiv_org_abs_2511_15685
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Assessing Power Flow Controllability via Variable Line Reactance
Haag, Eric
Chen, Yuhao
Venkataramanan, Giri
Singh, Manish K.
Optimization and Control
Systems and Control
The rapid growth of large data center loads and inverter-based generation is increasing the stress on transmission networks, while expanding grid capacity at the required pace remains challenging. Power flow controllers (PFCs) that adjust effective line reactances to redistribute flows are often viewed as an interim solution to improve transmission network utilization. Traditional flexibility metrics and analysis approaches for PFCs focus on a limited number of operating points and contingencies. Towards gaining system-wide insights, this paper introduces a framework to quantify network flow controllability- the extent to which line flows can be reshaped through reactance adjustments. We derive analytical results demonstrating that installing PFCs on all lines enables complete controllability of feasible flow patterns. Building on these, we conduct empirical studies on the IEEE 39-bus system to examine how controllability varies with the number of PFCs and their reactance adjustment range. These analyses employ a mixed-integer linear program to optimize the siting and sizing of PFCs. Finally, we validate findings under AC power flow physics using an optimization routine that steers flows toward desired setpoints.
title Assessing Power Flow Controllability via Variable Line Reactance
topic Optimization and Control
Systems and Control
url https://arxiv.org/abs/2511.15685