A comprehensive assessment of the state-of-the-art virtual synchronous generator models; Electric Power Systems Research; Vol. 209

A comprehensive assessment of the state-of-the-art virtual synchronous generator models; Electric Power Systems Research; Vol. 209

Библиографические подробности
Источник:	Electric Power Systems Research.— .— Amsterdam: Elsevier Science Publishing Company Inc. Vol. 209.— 2022.— Artcile number 108054, 12 p.
Другие авторы:	Suvorov A. A. Aleksey Aleksandrovich, Askarov A. B. Alisher Bakhramzhonovich, Kievets A. V. Anton Vladimirovich, Rudnik V. E. Vladimir Evgenevich
Примечания:	Title screen The large-scale penetration of renewable energy sources has a significant impact on the steady-state operation and emergency control of modern electric power systems (EPS). Moreover, as a rule, the mentioned impact is negative. Therefore, the challenge associated with the development of a ‘comprehensive’ control strategy for renewables becomes extremely relevant. Such a strategy should ensure the same reliable operation of EPSs, as in the case of conventional synchronous generation. Among the existing directions, the concept of a virtual synchronous generator (VSG) is the most preferable. Within this paper, the synthesis and combination of the state-of-the-art concepts of VSG into generic structures has been performed. For the obtained structures, a comprehensive assessment and an experimental comparison were performed. On the basis of the results obtained, the benefits and drawbacks of the generic structures are highlighted, and a conclusion is made about the VSG structure, demonstrating the most effective and reliable operation Текстовый файл AM_Agreement
Язык:	английский
Опубликовано:	2022
Предметы:	Virtual synchronous generator Auxiliary inertia Transient stability Power system Renewable energy Power converter control электронный ресурс труды учёных ТПУ
Online-ссылка:	https://doi.org/10.1016/j.epsr.2022.108054
Формат:	Электронный ресурс Статья
Запись в KOHA:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=683632

Схожие документы

An Adaptive Inertia and Damping Control Strategy Based on Enhanced Virtual Synchronous Generator Model; Mathematics; Vol. 11, iss. 18
Опубликовано: (2023)

A feedforward control for increasing the damping effect of enhanced current-controlled virtual synchronous generator; Electric Power Systems Research; Vol. 234
Опубликовано: (2024)

Comparative small-signal stability analysis of voltage-controlled and enhanced current-controlled virtual synchronous generators under weak and stiff grid conditions; International Journal of Electrical Power & Energy Systems (JEPE); Vol. 147
Опубликовано: (2023)

A freely configurable structure of virtual synchronous generator for grid-forming converters; Electrical engineering; Vol. 105, iss. 3
по: Suvorov A. A. Aleksey Aleksandrovich
Опубликовано: (2023)

Study of the influence of synthetic inertia on transient stability of electric power systems; Electrical engineering; Vol. 105, iss. 1
Опубликовано: (2023)

Freely Customized virtual generator model for grid-forming converter with hydrogen energy storage; International Journal of Hydrogen Energy; Vol. 47, iss. 82
Опубликовано: (2022)

The second order polynomial load model impact on stability of the synchronous motor; Industrial Engineering, Applications and Manufacturing (ICIEAM)
по: Batseva N. L. Natalya Lenmirovna
Опубликовано: (2016)

Programmed trajectory motion control for synchronous generators; International Journal of Electrical Power & Energy Systems; Vol. 119
Опубликовано: (2020)

Enhanced Virtual Synchronous Generator with Angular Frequency Deviation Feedforward and Energy Recovery Control for Energy Storage System; Mathematics; Vol. 12, iss. 17
Опубликовано: (2024)

A novel approach to validation of a positive-sequence modeling of a converter-interfaced generation with hydrogen energy storage in practical power systems; International Journal of Hydrogen Energy; Vol. 48, iss.12
Опубликовано: (2023)

Hybrid tools of generating unit simulation for proper tuning of automatic voltage regulators: concept, development and validation; Electrical engineering; Vol. 104, iss. 3
Опубликовано: (2021)

Comprehensive validation of transient stability calculations in electric power systems and hardware-software tool for its implementation; IEEE Access; Vol. 8
Опубликовано: (2020)

Analysis of low-frequency oscillation in power system with renewable energy sources; Energy Reports; Vol. 8
Опубликовано: (2022)

A novel approach to validation of a positive-sequence modeling of a converter-interfaced generation with hydrogen energy storage in practical power systems; International Journal of Hydrogen Energy; Vol. 48, iss. 12
Опубликовано: (2023)

Discrimination between in-zone and out-of-zone faults during power swing condition using synchrophasor data; International Journal of Electrical Power & Energy Systems; Vol. 146
Опубликовано: (2023)

Всережимная верификация расчетов при анализе динамической устойчивости электроэнергетических систем: All-mode Validation of Calculations in the Analysis of Electric Power Systems Transient Stability; Электричество; № 11
Опубликовано: (2020)

Stabilization of Electrical Parameters of Machine-Converter Voltage Source; EAI Endorsed Transactions on Energy Web; Vol. 5, iss. 16
Опубликовано: (2018)

Алгоритмы эталонных моделей для построения устройств адаптивной синхронизации генераторов и частей электроэнергетических систем; Известия Томского политехнического университета [Известия ТПУ]; Т. 323, № 4 : Энергетика
по: Хрущёв Ю. В. Юрий Васильевич
Опубликовано: (2013)

A Hybrid Simulation of Converter-Interfaced Generation as the Part of a Large-Scale Power System Model; International Journal of Engineering and Technology Innovation (IJETI); Vol. 11, iss. 4
Опубликовано: (2021)

Анализ влияния контура фазовой автоподстройки частоты СТАТКОМ на устойчивость электроэнергетических систем; Известия Томского политехнического университета [Известия ТПУ]. Промышленная кибернетика; Т. 3, № 4
по: Уманский И. В. Игорь Владимирович
Опубликовано: (2025)

Validation of positive-sequence modeling of large-disturbance stability in a distribution network with distributed generation using the hybrid comprehensive simulator; IEEE Access; Vol. 9
Опубликовано: (2021)

Virtual Inertia Synthesis and Control
по: Kerdphol, Thongchart, и др.
Опубликовано: (2021)

Electric Vehicles and Renewable Generation Power System Operation and Planning Under Uncertainty /
по: Baringo, Luis, и др.
Опубликовано: (2023)

Stability Improvement of a Multimachine Power System Connected With a Large-Scale Hybrid Wind-Photovoltaic Farm Using a Supercapacitor; IEEE Transactions on Industry Applications; Vol. 54, iss. 1
по: Li Wang
Опубликовано: (2018)

Анализ влияния возобновляемых источников энергии с силовыми преобразователями на процессы в современных энергосистемах; Вестник Пермского национального исследовательского политехнического университета. Электротехника, информационные технологии, системы управления; № 36
Опубликовано: (2020)

Совершенствование системы управления сетевыми инверторами в распределенных сетях электроснабжения газокомпрессорных станций; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 336, № 6
по: Пустохин П. Ю. Павел Юрьевич
Опубликовано: (2025)

Professional English for Electrical Power Engineering. Part 3: электронный курс
по: Ufa R. A. Ruslan Alexandrovich
Опубликовано: (Томск, TPU Moodle, 2017)

Application of generating units based on renewable energy sources for damping oscillations in the power system; Energy Reports; Vol. 9, supp. 9 : Technologies and Materials for Renewable Energy, Environment and Sustainability (TMREES23-Fr)
Опубликовано: (2023)

Electricity Production from Renewables
по: Castro, Rui
Опубликовано: (2022)

Frequency control by the PV station in electric power systems with hydrogen energy storage; International Journal of Hydrogen Energy; Vol. 48, iss. 73
Опубликовано: (2023)

Damping of Subsynchronous Resonance in a Hybrid System With a Steam-Turbine Generator and an Offshore Wind Farm Using a Unified Power-Flow Controller; IEEE Transactions on Industry Applications; Vol. 57, iss. 1
Опубликовано: (2021)

Factors affecting magnetohydrodynamic generator performance; Интеллектуальная энергетика
по: Myshkin (Mishkin) V. F. Vyacheslav Fedorovich
Опубликовано: (2024)

Settings determination for numerical transformer differential protection via its detailed mathematical model; IET Generation, Transmission & Distribution; Vol. 14, iss. 10
Опубликовано: (2020)

Increasing the stability of hydrogen production in the wind energy-hydrogen system through the use of synthetic inertia of the wind turbine; International Journal of Hydrogen Energy; Vol. 47, iss. 91
по: Razzhivin I. A. Igor Andreevich
Опубликовано: (2022)

Two-Dimensional Metal Halide Perovskites A Machine-Generated Literature Overview /
Опубликовано: (2024)

Variable electric drive of a pump station; Modern Techniques and Technology (MTT' 2000)
по: Savkov A. S.
Опубликовано: (2000)

Potential Application of HRTSim for Comprehensive Simulation of Large-Scale Power Systems with Distributed Generation; International Journal of Emerging Electric Power Systems; Vol. 20, iss. 5
Опубликовано: (2019)

Математическая модель электроагрегата мини-ТЭЦ на базе явнополюсного синхронного генератора; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 326, № 8
Опубликовано: (2015)

Photoelectrochemical Hydrogen Generation Theory, Materials Advances, and Challenges /
Опубликовано: (2022)

Проблема адекватного анализа устойчивости узлов двигательной нагрузки систем электроснабжения, условий ее обеспечения и средства ее решения; Вестник Иркутского государственного технического университета; Т. 22, № 1 (132)
Опубликовано: (2018)