Inter-area oscillations damping using dynamic braking and phasor measurements

Huseinbasic, Edin; Kuzle, Igor; Tomiša, Tomislav

doi:10.1109/psce.2009.4840068

Cited by 8 publications

(11 citation statements)

References 17 publications

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“…A major task of new general criteria in MFLP is the angle observation throughout the transmission network to prevent angle instability [36][37][38][39]. The new algorithm utilizes collected and available angle measurements of existing WAM systems.…”

Section: Protection Criteriamentioning

confidence: 99%

Wide Area Information-Based Transmission System Centralized Out-of-Step Protection Scheme

Ivanković¹,

Kuzle

Holjevac

2017

Energies

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A wide area monitoring system (WAMS) with reliable telecommunication infrastructure can be expanded and enhanced with additional protection and control functionalities using synchronized phasor data measurements. With that aim, we have developed a multifunctional line protection (MFLP) model with both system and back-up protection functions. Theoretical premises based on transmission and relay protection system knowledge, together with the experience gathered from the operation of existing wide area systems, were used to develop the proposed model. Four main groups of simulation scenarios were defined in order to test the newly implemented functions. The results of the simulation process confirm the assumptions underlying the design of our MFLP module. Simulation results are then used for definition of the protection criteria required for implementation of the wide area protection algorithm in a control center. Conclusions drawn from the protection responses of the proposed algorithm that strengthen the algorithm design process are elaborated in the paper. The main contribution of the paper is the design and development of a centralized MFLP algorithm based on synchronized phasor data that is able to issue a trip command to a circuit breaker before an out-of-step condition occurs.

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Section: Protection Criteriamentioning

confidence: 99%

Wide Area Information-Based Transmission System Centralized Out-of-Step Protection Scheme

Ivanković¹,

Kuzle

Holjevac

2017

Energies

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“…The stabilization scheme proposed herein incentivized by the conclusions obtained from [14]. In [14], authors presented a single TCBR device for damping inter-area oscillations in well-known Kundur's two-area benchmark utilizing the speed of equivalent one-machine infinite bus (OMIB Speed ) system as an energization control signal for the TCBR without deeming any artificial intelligence (AI)-based controller. Also, in [14], the authors introduced the response of OMIB Speed to elucidate the damping performance of the installed TCBR.…”

Section: Introductionmentioning

confidence: 99%

“…In [14], authors presented a single TCBR device for damping inter-area oscillations in well-known Kundur's two-area benchmark utilizing the speed of equivalent one-machine infinite bus (OMIB Speed ) system as an energization control signal for the TCBR without deeming any artificial intelligence (AI)-based controller. Also, in [14], the authors introduced the response of OMIB Speed to elucidate the damping performance of the installed TCBR. This work explores a centralized Interval Type-2 fuzzy logic controller (IT2FLC) to symphonize the switching operation of dual TCBRs in a coordinated fashion for the purpose of stabilizing the inter-area power oscillations provoked in Two-area Kundur test system.…”

Section: Introductionmentioning

confidence: 99%

“…This work explores a centralized Interval Type-2 fuzzy logic controller (IT2FLC) to symphonize the switching operation of dual TCBRs in a coordinated fashion for the purpose of stabilizing the inter-area power oscillations provoked in Two-area Kundur test system. Like [14], the implemented control signal for the proposed IT2FLC in this work is the OMIB Speed , as a global control signal for both TCBR devices. The IT2FLC takes the responsibility for deciding the switching strategy for the dual TCBRs using MATLAB ™ /Simulink simulation platform.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Stabilization of inter-area oscillations in two-area test system via centralized interval type-2 fuzzy-based dynamic brake control

Fayez

Mandor

Elhadidy

et al. 2021

Journal of Electrical Systems and Inf Technol

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Inter-area oscillations are, by far, the most detrimental oscillation category to the integrity of synchronously interconnected power systems. Inter-area oscillations are characterized by the inherent weak damping. The inherent poor damping associated with the inter-area oscillations leaves open wide probabilities for irrevocable widespread blackouts with the consequent eventual devastating outcomes measured in terms of the huge economic casualties and the possible human fatalities. The main purpose of this work is to mitigate inter-area power oscillations. This article explores the effectiveness of dual thyristor controlled braking resistor units with Interval Type-2 fuzzy-based centralized architecture for neutralizing the jeopardy of inter-area power oscillations in Kundur’s two-area test system using MATLAB™/Simulink environment. The effectiveness of the proposed scheme is examined by considering four case studies with different degrees of severity. The simulation results show that the proposed scheme is simple yet effective in treating the inter-area oscillations appropriately under the considered case studies.

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“…The stabilization approach suggested herein inspired from the conclusions presented in [14]. The authors presented single Thyristor Controlled Braking Resistor (TCBR) unit for stabilization of inter-area oscillations in Kundur's two-area test system and the energization signal for the brake was the speed of equivalent one-machine infinite bus (OMIB) system without considering any AI-based controller.…”

Section: Introductionmentioning

confidence: 99%

Fuzzy Logic Based Dynamic Braking Scheme for Stabilization of Inter-Area

Fayez¹,

Mandor²,

Elhadidy³

et al. 2019

Acta electron. Malays.

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Power system oscillations have been long recognized as a problem of great interest in the electric power industry. The main objective of this work focuses on stabilization of inter-area power oscillations motivated by the fact that many catastrophic blackout events with the consequent multi-billion-dollar economic losses were due to the presence of unstable inter-area modes of oscillations. This study will explore dual fuzzy logic controllers to orchestrate a coordinated switching strategy for dual dynamic braking resistors, as a cost-effective method, for stabilization of inter-area power oscillations in Kundur's two-area test system. Comparative simulation study via MATLAB/Simulink-based modeling and simulation environment of the test model with and without the suggested stabilization regime will demonstrate its effectiveness in stabilizing inter-area oscillations.

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Inter-area oscillations damping using dynamic braking and phasor measurements

Cited by 8 publications

References 17 publications

Wide Area Information-Based Transmission System Centralized Out-of-Step Protection Scheme

Wide Area Information-Based Transmission System Centralized Out-of-Step Protection Scheme

Stabilization of inter-area oscillations in two-area test system via centralized interval type-2 fuzzy-based dynamic brake control

Fuzzy Logic Based Dynamic Braking Scheme for Stabilization of Inter-Area

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