Anne Mai Ersdal scite author profile

A model predictive controller (MPC) for load frequency control (LFC) of an interconnected power system is investigated. The MPC is based on a simplified system model of the Nordic power system, and it takes into account limitations on tie-line power flow, generation capacity, and generation rate of change. The participation factors for each generator are optimization variables, and suggestions are made as to how one can ensure tie-line power transfer margins through slack-variables, and pricing information through the objective function. The solution of MPC for LFC is completed by including a Kalman filter for state estimation. The presented MPC is compared against a conventional LFC/AGC scheme with proportional integral (PI) controllers. Simulations show that the MPC gives better frequency response while using cheaper resources. This paper illustrates that MPC could be a realistic solution to some of the LFC problems power systems are facing today.Index Terms-Load frequency control, model predictive control.

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Model Predictive Control for Power System Frequency Control Taking into Account Imbalance Uncertainty

Ersdal

Fabozzi

Imsland

et al. 2014

IFAC Proceedings Volumes

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Model predictive load–frequency control taking into account imbalance uncertainty

Ersdal

Imsland

Uhlen

et al. 2016

Control Engineering Practice

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Nonlinear model predictive control (NMPC) is investigated for load frequency control (LFC) of an interconnected power system which is exposed to increasing wind power penetration. The robustified NMPC (RNMPC) proposed here uses knowledge of the estimated worst-case deviation in wind-power production to make the NMPC more robust. The NMPC is based on a simplified system model that is updated using state-and parameter estimation by Kalman filters, and takes into account limitations on among others tie-line power flow. Tests on a proxy of the Nordic power system, shows that the RNMPC is able to fulfill system constraints under worst-case deviations in wind-power production in cases where the nominal NMPC is not. Keywords

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Applying model predictive control to power system frequency control

Ersdal

Cecı́lio

Fabozzi

et al. 2013

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Abstract-Model predictive control (MPC) is investigated as a control method which may offer advantages in frequency control of power systems than the control methods applied today, especially in presence of increased renewable energy penetration. The MPC includes constraints on both generation amount and generation rate of change, and it is tested on a one-area system. The proposed MPC is tested against a conventional proportionalintegral (PI) controller, and simulations show that the MPC improves frequency deviation and control performance.

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An open-source educational toolbox for power system frequency control tuning and optimization

Cecı́lio

Ersdal

Fabozzi

et al. 2013

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Anne Mai Ersdal

Model Predictive Load-Frequency Control

Model Predictive Control for Power System Frequency Control Taking into Account Imbalance Uncertainty

Model predictive load–frequency control taking into account imbalance uncertainty

Applying model predictive control to power system frequency control

An open-source educational toolbox for power system frequency control tuning and optimization

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