Journal ArticleDOI
A Self-Organizing Strategy for Power Flow Control of Photovoltaic Generators in a Distribution Network
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TLDR
In this article, the authors developed a distributed control algorithm that will regulate the power output of multiple photovoltaic generators (PVs) in a distribution network, where the cooperative control methodology from network control theory is used to make a group of PV generators converge and operate at the same ratio of available power, which is determined by the status of the distribution network and the PV generators.Abstract:
The focus of this paper is to develop a distributed control algorithm that will regulate the power output of multiple photovoltaic generators (PVs) in a distribution network. To this end, the cooperative control methodology from network control theory is used to make a group of PV generators converge and operate at certain (or the same) ratio of available power, which is determined by the status of the distribution network and the PV generators. The proposed control only requires asynchronous information intermittently from neighboring PV generators, making a communication network among the PV units both simple and necessary. The minimum requirement on communication topologies is also prescribed for the proposed control. It is shown that the proposed analysis and design methodology has the advantages that the corresponding communication networks are local, their topology can be time varying, and their bandwidth may be limited. These features enable PV generators to have both self-organizing and adaptive coordination properties even under adverse conditions. The proposed method is simulated using the IEEE standard 34-bus distribution network.read more
Citations
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Cooperative Control And Advanced Management Of Distributed Generators In A Smart Grid
TL;DR: This work investigates its application in controlling the DGs in a micro grid using a gradient based technique and shows that this gradient based droop exhibits a superior performance in the transient resp on e, by eliminating the overshoots caused by the conventional droop.
Proceedings ArticleDOI
Energy generation and distribution via distributed coordination: Unbalanced cases
Byung-Hun Lee,Hyo-Sung Ahn +1 more
TL;DR: This paper provides general solutions for the cases when the supply-demand balance could not be achieved and numerical examples are presented to demonstrate the capability of the proposed analysis.
Proceedings ArticleDOI
Risk of Jamming Attacks on a Virtual Power Plant with Multiple Distributed Generators
Yan Xu,Fushuan Wen,Chung-Li Tseng,Ivo Palu,Yusheng Xue,Hongwei Zhao,Yang Zeng,Minghui Chen,Huiyu Shang +8 more
TL;DR: A binary-valued stochastic process is employed to model packet losses caused by jamming attacks and nonmalicious communication failures and shows how an attacker might launch malicious attacks to impair consensus-based control of DGs so that energy companies can take precautions.
OtherDOI
Distributed Active Power Control
TL;DR: This chapter discusses three distributed control methods/solutions for active power control, where the applications of these solutions differ depending on the control targets, control objectives, and available resources.
SynchronizationandPowerSharing forDroop-ControlledInvertersinIslandedMicrogrids ?
TL;DR: In this article, a distributed integral controller based on averaging algorithms is proposed to dynamically regulate the system frequency in the presence of a time-varying load, which preserves the power sharing properties of the primary droop controller.
References
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TL;DR: In this article, the authors present a model for the power system stability problem in modern power systems based on Synchronous Machine Theory and Modelling, and a model representation of the synchronous machine representation in stability studies.
Journal ArticleDOI
Power Management Strategies for a Microgrid With Multiple Distributed Generation Units
F. Katiraei,M.R. Iravani +1 more
TL;DR: In this article, real and reactive power management strategies of EI-DG units in the context of a multiple DG microgrid system were investigated. And the results were used to discuss applications under various microgrid operating conditions.
Journal ArticleDOI
Integrating distributed generation into electric power systems: A review of drivers, challenges and opportunities
TL;DR: In this article, the authors present an overview of the key issues concerning the integration of distributed generation into electric power systems that are of most interest today and analyze the repercussions in transmission system operation and expansion that result from the connection of large amounts of DG of different energy conversion systems focusing on issues related with impacts in steady state operation.
Journal ArticleDOI
Distributed generation technologies, definitions and benefits
TL;DR: In this article, the authors introduce a survey of this revolutionary approach of DGs, which will change the way electric power systems operate along with their types and operating technologies, and survey the operational and economical benefits of implementing DGs in the distribution network.
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Cooperative Control of Dynamical Systems: Applications to Autonomous Vehicles
TL;DR: In this paper, a new framework based on matrix theory is proposed to analyze and design cooperative controls for a group of individual dynamical systems whose outputs are sensed by or communicated to others in an intermittent, dynamically changing, and local manner.