Control Systems for Low-Inertia Power Grids: A Survey on Virtual Power Plants

Ochoa, Daniel E.; Galarza-Jimenez, Felipe; Wilches-Bernal, Felipe; Schoenwald, David A.; Poveda, Jorge I.

doi:10.1109/access.2023.3249151

Cited by 25 publications

(9 citation statements)

References 301 publications

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“…In the augmentation of the power supply, the requirement for connectivity has often led to the optimization of the distribution system. This distribution is a mode of inquiring about the distribution of practices with respect to the homogenous distribution of power supply [18].…”

Section: Understanding the Distributed Architecture For The Supervisi...mentioning

confidence: 99%

Improving the Efficiency and Reliability of Renewable Energy Systems

Chen,

Huang,

Ren

et al. 2024

SCPE

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The implications of relevant sustainable practices have reflected the scholastic features to improve the environmental resources. The study highlights the importance of conservation of environment and power system in search of proven solutions to improve the penetration level. The need for flexibility has signified the special characteristics that are conventional in increasing the integrity of renewable resources. The ideologies have global trends have integrated the cost of affectivity with the growing applications of power projects. The architecture of wind and solar energy has touched successful benchmarks with respect to the real world implications. The conceptual practices help in initializing the practices towards biomass as well as determining the impact of renewable energy on wind and solar power energy in a significant manner. In addition to that, the applications of solar or photovoltaic cell have been mentioned in the study which has greater significance. The ideas based on the emission of greenhouse gases have been evaluated in the study that shows the after effects as well. The use of passive solar energy and active solar energy has clearly discussed the concept of sustainability and the process of administering towards various climatic conditions. Lastly, the impact of renewable resources on social, environmental, technical and economic aspects has verified the relevant practice of sustainability.

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Section: Understanding the Distributed Architecture For The Supervisi...mentioning

confidence: 99%

Improving the Efficiency and Reliability of Renewable Energy Systems

Chen,

Huang,

Ren

et al. 2024

SCPE

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“…VPP aggregation entails the coordination of different dynamic energies, while ensuring the stability of the overall system. It requires careful design of the VPP control system, as depicted in Figure 8, which integrates the physical and digital layers into a closed-loop system powered by hybrid energy [53]. This framework is used to develop and analyze mathematical models for control design and is often simplified to obtain traditional multivariate linear models for discrete time, continuous time, or hybrid power systems [54].…”

Section: Control Framework and Systems Of Vppsmentioning

confidence: 99%

“…This framework is used to develop and analyze mathematical models for control design and is often simplified to obtain traditional multivariate linear models for discrete time, continuous time, or hybrid power systems [54]. To operate the DER and loads effectively in the VPP, we need to develop appropriate control strategies to meet various grid requirements and goals, including regulating and maintaining voltage and frequency stability, fault management, synchronization, and realtime optimization [53]. These goals are defined according to the VPP hierarchy and must comply with local standards or protocols.…”

Section: Control Framework and Systems Of Vppsmentioning

confidence: 99%

Virtual Power Plant with Renewable Energy Sources and Energy Storage Systems for Sustainable Power Grid-Formation, Control Techniques and Demand Response

Liu

et al. 2023

Energies

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As the climate crisis worsens, power grids are gradually transforming into a more sustainable state through renewable energy sources (RESs), energy storage systems (ESSs), and smart loads. Virtual power plants (VPP) are an emerging concept that can flexibly integrate distributed energy resources (DERs), managing manage the power output of each DER unit, as well as the power consumption of loads, to balance electricity supply and demand in real time. VPPs can participate in energy markets, enable self-scheduling of RESs, facilitate energy trading and sharing, and provide demand-side frequency control ancillary services (D-FCAS) to enhance the stability of the system frequency. As a result, studies considering VPPs have become the focus of recent energy research, with the purpose of reducing the uncertainty resulting from RESs distributed in the power grid and improving technology related to energy management system (EMS). However, comprehensive reviews of VPPs considering their formation, control techniques, and D-FCAS are still lacking in the literature. Therefore, this paper aims to provide a thorough overview of state-of-the-art VPP technologies for building sustainable power grids in the future. The review mainly considers the development of VPPs, the information transmission and control methods among DERs and loads in VPPs, as well as the relevant technologies for providing D-FCAS from VPPs. This review paper describes the significant economic, social, and environmental benefits of VPPs, as well as the technological advancements, challenges, and possible future research directions in VPP research.

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“…Desta forma, o SG mantém o sincronismo e evita o colapso ou apagão da rede. A massa rotativa do gerador contribui com energia cinética para a rede ou a absorve da rede sob variações de frequência [46].…”

Section: Inércia Síncronaunclassified

“…Quando existe uma variação de frequência mais elevada e certos limites técnicos de operação são ultrapassados, há a possibilidade de serem ativados outros mecanismos de contenção, com o objetivo de estabilizar e recuperar a frequência após um evento [46,58]. Este tipo de controle de frequência é comumente dividido entre reservas de contenção (ou FCR -do inglês, Frequency Containment Reserve) e reservas de restauração de frequência (ou FRR -do inglês, Frequency Restoration Reserve), de forma equivalente, entre controles primário e secundário, respectivamente [59], conforme apresentado na Figura 8.…”

Section: Reservas Operativasunclassified

Estratégias de controle para resposta em frequência na operação isolada entre geração eólica offshore e plataformas de óleo e gás em águas profundas.

Santos

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A Deus, em primeiro lugar, por ser meu guia e porto seguro, dando-me força diante de todas as dificuldades e amor em toda a minha trajetória.Aos meus pais Obede e Vitória e ao meu irmão Itiel, por sempre serem meus melhores amigos, apoiando, aconselhando, acreditando no meu potencial e colaborando ativamente para o meu crescimento. O desejo de me tornar um ser humano melhor em todos os aspectos é por e para eles.Ao meu querido Shelmmer, que me surgiu do nada e com quem agora eu quero tudo, e aos seus doces pais Cida e Pedro.Aos meus tios Maria Daguia e Manoel pelo carinho e apoio antes, durante e depois da minha curta experiência de morar em uma nova cidade.Em especial, aos professores Renato Monaro e Maurício Salles por, desde antes de meu ingresso, estarem sempre disponíveis a ajudar e por serem verdadeiros amigos durante minha jornada de pesquisa, sendo grandes referências enquanto indivíduos e profissionais. Estendo meus agradecimentos aos membros do LGrid, que têm uma contribuição significativa na minha vida acadêmica e também pessoal, por todo carinho e convivência, mesmo que boa parte com distanciamento físico. Agradeço também a Guacira, querida amiga que me apoia desde quando nem nos conhecíamos direito.Aos professores José Luiz e Marcos Dias, essenciais na minha transição da UFRN para a USP, sendo partes importantes da minha trajetória acadêmica, e ao professor Ricardo Pinheiro, que me introduziu ao mundo da pesquisa sobre eólica durante a gradução. Neste aspecto, aproveito para agradecer às instituições de ensino onde pude crescer e aos professores que me inspiraram e auxiliaram.Aos amigos de Natal, São Paulo, Ouro Preto e tantos outros que estiveram e estão ao meu lado. Por fim, a todos que depositaram sua confiança em minhas mais diversas experiências até o momento.

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Control Systems for Low-Inertia Power Grids: A Survey on Virtual Power Plants

Cited by 25 publications

References 301 publications

Improving the Efficiency and Reliability of Renewable Energy Systems

Improving the Efficiency and Reliability of Renewable Energy Systems

Virtual Power Plant with Renewable Energy Sources and Energy Storage Systems for Sustainable Power Grid-Formation, Control Techniques and Demand Response

Estratégias de controle para resposta em frequência na operação isolada entre geração eólica offshore e plataformas de óleo e gás em águas profundas.

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