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Parallel Binding Process of Alternators with Arduino

Yıl 2018, Sayı: 4, 56 - 60, 04.12.2018

Öz

In
this study, the conditions for parallel binding of the alternators used in the
power plants to grid were examined and the fulfillment of these conditions was
carried out with Arduino. The power plant drive system has been modeled as
Asynchronous motor module with 3 phase power of 5 kW. In the alternator part,
asynchronous machine was used at 13 kVA power. Voltage, frequency, phase
sequence and phase difference magnitudes of alternator and grid are used as
input data of Arduino. Voltage, frequency, phase sequence and phase difference
magnitudes of alternator and network are used as input data of Arduino. Four
different modules have been designed to be integrated into Arduino for every
magnitude. These modules evaluate the information from the grid and the
alternator. Arduino brings the alternator and the grid in parallel via the
relay at the output when appropriate conditions met. Modules designed for the
training set, software embedded in Arduino allows practical parallel connection
without using different measuring instruments.  

Kaynakça

  • Colak, I. (2003). Synchronous Machines. Seçkin Publishing, Ankara. Chapman, S.J. (1987). Electric Machinery Fundamentals. McGraw-Hill Book Company. Çolak, I., Yılmaz, E.N. (1999). Simulation of the parallel connection of electrical power stations. IJEEE International Journal of Electrical Engineering Education, 36 (4), 332-341. IEEE Std. (2005). IEEE Power Engineering Society. IEEE standard for synchrophasors for power systems, C37. 118. Mahmoud, M. S., Ismail, A. (2003). Control of electric power systems. Systems Analysis Modeling Simulation, 43(12), 1639-1673. Martin, K.E. (1993). Precise timing in electric power systems. IEEE International Frequency Control Symposium, 15-22. Metwally, H.M.B. (2000). Operation of new variable speed constant voltage and frequency generator connected to the grid. Energy Conversion and Management, 41(7), 701-712. Phadke AG and subcommittee of the IEEE Power System Relaying Committee, Synchronized sampling and phasor measurements for relaying and control, IEEE Transactions on Power Delivery, 9 (1), 442- 452, 1994. Radovanovic, A. (2001). Using the internet in networking of synchronized phasor measurement units. Elsevier, Electrical Power and Energy Systems 23, 245-250.
Yıl 2018, Sayı: 4, 56 - 60, 04.12.2018

Öz

Kaynakça

  • Colak, I. (2003). Synchronous Machines. Seçkin Publishing, Ankara. Chapman, S.J. (1987). Electric Machinery Fundamentals. McGraw-Hill Book Company. Çolak, I., Yılmaz, E.N. (1999). Simulation of the parallel connection of electrical power stations. IJEEE International Journal of Electrical Engineering Education, 36 (4), 332-341. IEEE Std. (2005). IEEE Power Engineering Society. IEEE standard for synchrophasors for power systems, C37. 118. Mahmoud, M. S., Ismail, A. (2003). Control of electric power systems. Systems Analysis Modeling Simulation, 43(12), 1639-1673. Martin, K.E. (1993). Precise timing in electric power systems. IEEE International Frequency Control Symposium, 15-22. Metwally, H.M.B. (2000). Operation of new variable speed constant voltage and frequency generator connected to the grid. Energy Conversion and Management, 41(7), 701-712. Phadke AG and subcommittee of the IEEE Power System Relaying Committee, Synchronized sampling and phasor measurements for relaying and control, IEEE Transactions on Power Delivery, 9 (1), 442- 452, 1994. Radovanovic, A. (2001). Using the internet in networking of synchronized phasor measurement units. Elsevier, Electrical Power and Energy Systems 23, 245-250.
Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Elif Merve Bahar

Kivanc Basaran

İsa Serdar Topbas

Yayımlanma Tarihi 4 Aralık 2018
Yayımlandığı Sayı Yıl 2018Sayı: 4

Kaynak Göster

APA Bahar, E. M., Basaran, K., & Topbas, İ. S. (2018). Parallel Binding Process of Alternators with Arduino. The Eurasia Proceedings of Science Technology Engineering and Mathematics(4), 56-60.