Design of remotely located and multi-loop vibration controllers using a sequential loop closing approach

Ubaid, Ubaid; Daley, S.; Pope, Simon

doi:10.1016/j.conengprac.2014.12.016

Cited by 8 publications

(2 citation statements)

References 25 publications

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“…The secondary controller is selected as being a PI type. In order to design the secondary controllers, the sequential loop closing method [40] is used, such that MG 1 controller is tuned using PID tuning block in MATLAB/SIMULINK when MG 2 and MG 3 control loops are open. Then MG 2 controller is tuned and finally MG 3 control loop is closed to tune its controller.…”

Section: Use Of the Single-order Model In Frequency Control Of Interc...mentioning

confidence: 99%

Low-Frequency Small-Signal Modeling of Interconnected AC Microgrids

Naderi

Shafiee

Bevrani

et al. 2021

IEEE Trans. Power Syst.

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As a solution for optimized, reliable and flexible operation of distribution systems, multiple AC microgrids can be interconnected. In this paper, a low-order low-frequency small-signal model is proposed for large-scale interconnected AC microgrids in order to analyze stability and dynamics as well as synthesize high-level controllers, e.g. inter-microgrid power flow controller. A sensitivity analysis-based technique is introduced to find significant modules of fully inverter-based AC microgrids for preserving the dominant low-frequency modes. The low-order model of AC microgrids including both droop-based and PQcontrolled distributed generation units is obtained by removing insignificant modules of the detailed model and reconfiguring the significant modules. The concept of virtual swing equation and the aggregation modeling method are employed to achieve a single-order model from the low-order model for each AC microgrid with any number of sources. The analysis and synthesis of the large-scale interconnected microgrids can easily be done using the proposed single-order model. The frequency analysis and control of three interconnected AC microgrids are presented as a case study, which leads to introducing the inter-microgrid oscillatory modes.

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Section: Use Of the Single-order Model In Frequency Control Of Interc...mentioning

confidence: 99%

Low-Frequency Small-Signal Modeling of Interconnected AC Microgrids

Naderi

Shafiee

Bevrani

et al. 2021

IEEE Trans. Power Syst.

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show abstract

“…Finally, more complex control strategies also have been proposed. For example, multi-loop vibration controller, disturbance observer introduced into an outer-loop DVFC and other dynamic compensators are investigated in recent researches [47,48,49]. However, these features and new control components undoubtedly complicate the practical implementation and its likelihood of success.…”

Section: Introductionmentioning

confidence: 99%

Vibration Control Strategies for Cancelling Floor Vibrations via Inertial Mass Dampers

Xidong¹

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Nowadays it is quite common to find vibration serviceability problems in light and slender structures due to the developments of building materials and construction techniques. These structures satisfy ultimate limit state criteria but have the potential of attracting complaints coming from excessive human-induced vibrations. These problems can be found in pedestrian bridges, open-plan layout floors, cantilevered grandstands, etc. Among the investigations carried out, active vibration control (AVC) via inertial mass actuators (or active mass dampers, AMD) and passive vibration control (PVC) via tuned mass dampers (TMD) are the most common and efficient solutions.Firstly, I would like to express my sincere gratitude to my thesis supervisors: Prof. Iván Muñoz Díaz and Emiliano Pereira González for their continuous support of my Ph.D study and related research, for their patience, motivation, and immense knowledge. Their guidance helped me in all the time of research and writing of this thesis. They are not only my guides in academic areas but also good friends in life, always giving me encourage and keeping me move on. I am really happy with my Spanish name Simón, adopted from Iván and Isidro, which I will keep forever.Besides, I would like to give my thanks to Prof. Jaime García-Palacios and José Manuel Soria Herrera. You are always there to give a helping hand whenever needed. My sincere thanks also goes to Prof. Onur Avci, who helped me to have an unforgettable experience in Qatar University and Doha. All the professors, members and students of the Grupo de Ingeniería Estructural, I am so happy to be part of this big family, thank you

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Conclusions

Puig

Simani

2021

Diagnosis and Fault‐tolerant Control 2

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Design of remotely located and multi-loop vibration controllers using a sequential loop closing approach

Cited by 8 publications

References 25 publications

Low-Frequency Small-Signal Modeling of Interconnected AC Microgrids

Low-Frequency Small-Signal Modeling of Interconnected AC Microgrids

Vibration Control Strategies for Cancelling Floor Vibrations via Inertial Mass Dampers

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