Miguel Picallo scite author profile

In this paper we consider the problem of State Estimation (SE) in large-scale, 3-phase coupled, unbalanced distribution systems. More specifically, we address the problem of including mixed real-time measurements, synchronized and unsynchronized, from phasor measurement units and smart meters, into existing SE solutions. We propose a computationally efficient two-step method to update a prior solution using the measurements, while taking into account physical constraints caused by zero-injection buses. We test the method on a benchmark test feeder and show the effectiveness of the approach.

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Closing the loop: Dynamic state estimation and feedback optimization of power grids

Picallo

Bolognani

Dörfler

2020

Electric Power Systems Research

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Adaptive real-time grid operation via Online Feedback Optimization with sensitivity estimation

Picallo

Ortmann

Bolognani

et al. 2022

Electric Power Systems Research

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Comparison of Bounds for Optimal PMU Placement for State Estimation in Distribution Grids

Picallo

Anta

Schutter

2019

IEEE Trans. Power Syst.

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The lack of measurements in distribution grids poses a severe challenge for their monitoring: since there may not be enough sensors to achieve numerical observability, load forecasts (pseudo-measurements) are typically used, and thus an accurate state estimation is not guaranteed. However, an estimation is required to control distribution grids given the increasing amount of distributed generation. Therefore, we consider the problem of optimal sensor placement to improve the state estimation accuracy in large-scale, 3-phase coupled, unbalanced distribution grids. This is a combinatorial optimization problem whose optimal solution is unpractical to obtain for large networks. We explore the properties of different metrics in the context of optimal experimental design, like convexity and modularity, to propose and compare several tight lower and upper bounds on the performance of the optimal solution. Moreover, we show how to use these bounds to choose near-optimal solutions. We test the method on two IEEE benchmark test feeders, the 123-bus and the 8500-node feeders, to show the effectiveness of the approach.

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Stochastic Optimal Power Flow in Distribution Grids under Uncertainty from State Estimation

Picallo

Anta

Schutter

2018

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The increasing amount of controllable generation and consumption in distribution grids poses a severe challenge in keeping voltage values within admissible ranges. Existing approaches have considered different optimal power flow formulations to regulate distributed generation and other controllable elements. Nevertheless, distribution grids are characterized by an insufficient number of sensors, and state estimation algorithms are required to monitor the grid status. We consider in this paper the combined problem of optimal power flow under state estimation, where the estimation uncertainty results into stochastic constraints for the voltage magnitude levels instead of deterministic ones. To solve the given problem efficiently and to bypass the lack of load measurements, we use a linear approximation of the power flow equations. Moreover, we derive a transformation of the stochastic constraints to make them tractable without being too conservative. A case study shows the success of our approach at keeping voltage within limits, and also shows how ignoring the uncertainty in the estimation can lead to voltage level violations.

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Miguel Picallo

A Two-Step Distribution System State Estimator with Grid Constraints and Mixed Measurements

Closing the loop: Dynamic state estimation and feedback optimization of power grids

Adaptive real-time grid operation via Online Feedback Optimization with sensitivity estimation

Comparison of Bounds for Optimal PMU Placement for State Estimation in Distribution Grids

Stochastic Optimal Power Flow in Distribution Grids under Uncertainty from State Estimation

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