Sezer, Mesut Erol

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https://gcris.yasar.edu.tr/handle/123456789/12725
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Prof.Dr.
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01.01.09.02. Elektrik- Elektronik Mühendisliği
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Former Staff
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0000-0002-5098-0233
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Scholarly Output

3

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Supervised MSc Theses

3

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3

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  • Thumbnail Image
    Master Thesis
    Foto-Electric Sistemlerde Guçtepe Noktasının izlenmisi
    (2015) Din, İmmad Ud; Sezer, Mesut Erol
    Three different control algorithms for maximum power point tracking in a photovoltaic system are compared. Performance of each algorithm is evaluated by simulating the dynamic behavior of a typical photovoltaic system under different operating conditions. The system used in simulations consists of a PV array, a dc-dc Buck converter and a simple resistive load. The output voltage of a PV array is controlled by adjusting the duty cycle of the Buck converter, which in turns, determines how much of the maximum power available in the PV array is extracted. The three algorithm used for tracking the maximum power point are: The perturb-and-observe (P&O) method, the incremental conductance (IC) method, and the fractional open circuit (FOC) method. The performances of the algorithms are compared for different irradiances.
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    Master Thesis
    Güç sisteminin geçici durum kararlılık analizinde yapı koruyucu modeli
    (2015) Mohammed, Mohammed Amer; Sezer, Mesut Erol
    An important problem in transient stability analysis of interconnected power system is determination of the effect of fault-clearing-time or stability. Classical approach to the problem is to simulate the dynamic model of the system with the help of a computer during the fault and after it is cleared. This, however, requires a different simulation for each clearings time. An alternative approach is to use Lyapunov theory to determine a region of attraction about the stable post-fault equilibrium. In this study, a structure preserving dynamic model that enables construction of a suitable Lyapunov Function.
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    Master Thesis
    Bir microgridde güç kontrolü
    (2015) Abdullahı, Salısu; Sezer, Mesut Erol
    Mikro şebeke, mikro kaynakların bir çevrede bir yük ve opsiyonel enerji depolama cihazıyla birleştirilmesine denir. Mikro şebeke ya otonom işlem, ya otonom olmayan işlem, ya da ikili işlemde çalıştırılabilir. Otonom işlemde mikro şebeke kendi enerjisini üretmeli ve aynı zamanda bu enerjiyi kontrol etmelidir. Mikro şebekenin bileşenleri olan 270 kW rüzgar türbini, 40 kW mikro türbin, 100 kW'lık pil enerji depolama sistemi ve bunların kontrol sistemi mikro şebekede güç kontrolü sağlamak için birbirleriyle çalışır. Bu bileşenlerin ve onların değişkenlerinin blok diyagramı Simulink ortamında oluşturulmuştur. Simülasyon testi sistemdeki güç talebinin azaltılıp rüzgar hızının artırılmasıyla gerçekleştirilmiştir. Bununla birlikte, Simulink ortamında pil enerji depolama sisteminin gecikmesiz tepkisi gözlemlenmiştir.