Developing and Evaluating the Operating Region of a Grid-Connected Current Source Inverter from Its Mathematical Model

Baier, Carlos R.; Melin, Pedro E.; Torres, Miguel A.; Ramirez, Roberto O.; Muñoz, Carlos; Quinteros, Agustin

doi:10.3390/math12121775

Mathematics

2024

DOI: 10.3390/math12121775

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Developing and Evaluating the Operating Region of a Grid-Connected Current Source Inverter from Its Mathematical Model

Carlos R. Baier,

Pedro E. Melin,

Miguel A. Torres

et al.

Abstract: Grid-connected power inverters are indispensable in modern electrical systems, playing a pivotal role in enhancing the integration of renewable energies into power grids. Their significance, primarily when functioning as grid-forming inverters, extends to maintaining the grid’s inertia and strength—a distinct advancement over traditional grid-following operations. As grid-forming inverters, these devices emulate the characteristics of synchronous generators and can act as robust voltage sources, providing esse… Show more

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2024

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Cited by 3 publications

References 48 publications

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Effect of Reactive Power Generation in Photovoltaic Installations on the Voltage Value at the Inverter Connection Point

Hołdyński,

Skibko,

Borusiewicz

et al. 2024

Energies

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Worldwide, photovoltaic installations are making an increasing contribution to electric energy generation. These are power-unstable sources due to the rapid and frequent change in insolation. As a result, a common problem noted in low-voltage power grids is that the permitted voltage values at the source connection point are exceeded. There are several methods of limiting the voltage values present at the inverter. One of them is the generation of reactive power in a photovoltaic installation. In the literature, one can find many relationships that allow one to determine the increase in voltage caused by the change in reactive power, where the imaginary part of the voltage loss is omitted as insignificant. The authors’ research has shown that this can lead to significant errors. Omitting the imaginary value causes the determined values to be even more than 4.5 times smaller—these differences increase with the length of the line. The analyses carried out by the authors show that the determination of voltage increments with and without taking into account the imaginary part of the voltage loss in the calculations differs from the values determined via computer simulation (failure to take into account the imaginary part results in calculated values of voltage increase being lower than the values determined via a computer by about 40% on average).

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Effect of Reactive Power Generation in Photovoltaic Installations on the Voltage Value at the Inverter Connection Point

Hołdyński,

Skibko,

Borusiewicz

et al. 2024

Energies

View full text Add to dashboard Cite

show abstract

Enhanced Virtual Synchronous Generator with Angular Frequency Deviation Feedforward and Energy Recovery Control for Energy Storage System

Askarov,

Rudnik,

Ruban

et al. 2024

Mathematics

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Frequency control is one of the most important tasks in electric power systems. At the same time, in modern power systems with inertia-free converter-interfaced generation, this task has become more complex. Such an issue is especially relevant for microgrids, which are characterized by a significant increase in the rate of change of frequency and its nadir or zenith. An effective way is through the use of energy storage systems (ESSs) with a grid-forming control in microgrids. For this purpose, this paper proposes a novel structure of the control algorithm based on a current-control virtual synchronous generator (CC-VSG), in which the damping is performed using a feedforward controller. In addition, a simple proportional–integral controller is added to the CC-VSG structure to control the state of charge of the ESS. The performed frequency analysis proves the independence of the different control loop operations within the developed CC-VSG. At the same time, a methodology based on the bandwidth separation of different control loops is proposed for the CC-VSG tuning, which allows for the achievement of the desired quality of frequency regulation in the microgrid, taking into account both the energy recovery and the permissible frequency variation. Finally, the time-domain simulation using PSCAD/EMTDC is performed to confirm the obtained results.

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Signatures and Mechanism Analysis of Converter-Grid Subsynchronous Oscillations

Askarov,

Bay,

Ufa

et al. 2024

Mathematics

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In the last decade, a rather new phenomenon related to subsynchronous oscillations (SSO) in a wide frequency range has emerged in modern power grids with power converters. The consequences of these oscillations can be severe system accidents, which have already occurred in various power systems. Taking into account the importance of studying such oscillations for effective mitigation and the existing gaps in understanding the mechanisms of SSO occurrence due to different combinations of used controllers in the inverter control system, as well as the grid parameters, a frequency analysis of simplified grid inverter models is performed. As a result, five different mechanisms of SSO occurrence, the affecting factors and the level of inverter model detail required for the adequate study of SSO are justified. The developed detailed state–space model allowed for verifying the obtained results, as well as identifying an additional sixth mechanism of SSO occurrence. The common condition for the occurrence of all the identified SSO mechanisms is a weak grid with a short-circuit ratio of less than two. The results of control hardware-in-the-loop testing confirmed the conclusions drawn. As a result, a classification of SSO occurrence mechanisms was formed, reflecting their causes and distinctive features.

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Developing and Evaluating the Operating Region of a Grid-Connected Current Source Inverter from Its Mathematical Model

Cited by 3 publications

References 48 publications

Effect of Reactive Power Generation in Photovoltaic Installations on the Voltage Value at the Inverter Connection Point

Effect of Reactive Power Generation in Photovoltaic Installations on the Voltage Value at the Inverter Connection Point

Enhanced Virtual Synchronous Generator with Angular Frequency Deviation Feedforward and Energy Recovery Control for Energy Storage System

Signatures and Mechanism Analysis of Converter-Grid Subsynchronous Oscillations

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