Fuzzy logic-based synchronization control system of generators under conditions of frequency instability

M. Al-Soud, Mahmoud; M. Eial Awwad, Abdullah; Al-Quteimat, Alaa; Ushkarenko, Oleksandr

doi:10.11591/eei.v12i6.5921

Bulletin EEI

2023

DOI: 10.11591/eei.v12i6.5921

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Fuzzy logic-based synchronization control system of generators under conditions of frequency instability

Mahmoud M. Al-Soud,

Abdullah M. Eial Awwad,

Alaa Al-Quteimat

et al.

Abstract: This article focuses on studying and addressing the issue of synchronizing diesel gas generator units (DGGU) in autonomous electric power system (AEPS) in the presence of significant voltage frequency fluctuations. MATLAB models of AEPS are being developed that will enable the study of generator connection procedures while operating under a full load. Fluctuations in the rotation frequency of a diesel gas unit can be simulated by generating a realistic random procedure and adding this random signal to the cont… Show more

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2024

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Improved Instantaneous Current Value-Based Protection Methods for Faulty Synchronizations of Synchronous Generators

Mahtani,

Guerrero,

Platero

2024

Electronics

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Faulty synchronizations of synchronous generators can cause significant detrimental effects, primarily due to a large current and high electromagnetic torque. These effects not only impact the generator but they can also extend to the prime mover and the step-up transformer. Furthermore, such events can trigger disturbances in the power system, potentially leading to system collapse if not promptly cleared. Although the autosynchronizers and synchro-check technologies are well established in the industry, faulty synchronizations, such as those caused by incorrect wiring during maintenance or commissioning operations, can go undetected by these systems. Existing protections do not allow for the detection of faulty synchronizations in a timely manner. This paper presents novel protection methods specifically designed for this issue: one based on instantaneous current value and the other on the instantaneous current-derivative value. These schemes are activated exclusively during the synchronizations process, allowing for faster fault detection compared to existing methods, thereby reducing the duration of harmful electrical and mechanical stresses after a faulty synchronization. The effectiveness of the proposed schemes has been validated through computer simulations of a 362 MVA turbo-generator from a thermal power plant and also through experimental tests on a 5 kVA synchronous generator using a specialized laboratory synchronization test bench, yielding promising results.

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Improved Instantaneous Current Value-Based Protection Methods for Faulty Synchronizations of Synchronous Generators

Mahtani,

Guerrero,

Platero

2024

Electronics

View full text Add to dashboard Cite

show abstract

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Fuzzy logic-based synchronization control system of generators under conditions of frequency instability

Cited by 1 publication

References 21 publications

Improved Instantaneous Current Value-Based Protection Methods for Faulty Synchronizations of Synchronous Generators

Improved Instantaneous Current Value-Based Protection Methods for Faulty Synchronizations of Synchronous Generators

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