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Deanship of Graduate Studies
Document Details
Document Type
:
Thesis
Document Title
:
Grid Voltage Parameters Estimation Under Adverse Conditions
تقدير خصائص جهد الشبكة في الظروف التشغيلية المعاكسة
Subject
:
Faculty of Engineering
Document Language
:
Arabic
Abstract
:
In the last decades, a huge expansion of electrical grid has been produced with an increasingly use of distributed generation such as photovoltaic panels and wind energy, and promising future trend of introducing new parts in the network that can operate as microgrids, which will add more flexibility, robustness, efficiency, and intelligence to the grid. In such complex system, a proper monitoring, protection and controlling of the network is highly required to provide the continuity and quality of electrical supply to consumers. Grid voltage amplitude and frequency have a great value to indicate the stability of the network and ensure secure operation. Fast and accurate estimation of grid voltage amplitude and frequency is a very important issue to achieve secure and stable operation of the grid. Also, the estimation of these parameters has a great value for the proper synchronizing microgrids with the main grid even under adverse conditions. In this thesis, a grid voltage frequency and amplitude are estimated using descent gradient method along with Second Order Generalized Integrator (SOGI) filter, the characteristics of SOGI and gradient descent will be explained in detail showing its properties and advantages. Different estimators will be introduced such as single SOGI estimator and cascaded SOGI estimator and will be compared to existing method SOGI-FLL which is presented in literature review. Adverse conditions such as harmonics, subharmonics voltage sag, and frequency penetration will be applied to the proposed estimators to check the response of each estimators and how its performance. Criteria of the result in this thesis are the rejection capability of proposed method of harmonics and subharmonics also the settling time. The modeling and simulation in this thesis carried out using MATLAB SIMULINK.
Supervisor
:
PROF. YUSUF AL-TURKI
Thesis Type
:
Master Thesis
Publishing Year
:
1438 AH
2017 AD
Added Date
:
Tuesday, July 11, 2017
Researchers
Researcher Name (Arabic)
Researcher Name (English)
Researcher Type
Dr Grade
Email
حامد عبد القادر الشيخ
ALSHAEIKH, HAMED ABDALGADER
Researcher
Master
Files
File Name
Type
Description
41947.pdf
pdf
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