Araştırma Makalesi
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A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor

Yıl 2017, Cilt: 20 Sayı: 1, 61 - 69, 01.03.2017

Öz

In this study, reactive power demand of the load or the load groups has been provided with a synchronous motor through a web interface as user controlled. For the realization of reactive power compensation and monitoring the system via Internet, a data acquisition card (DAQ) has been used which has superior properties compared to other controllers such as PLC and PIC. In this study, adding inductive and resistive load to the network, three-phase voltage and three-phase current values are taken from the network and the power factor value of the system can be monitored via a visual web interface. Active, reactive and apparent power value can be observed in real time via the interface. A new approach for computer-controlled and monitored reactive power compensation systems through the internet that is uncommon in the literature is presented with this experimental system.

Kaynakça

  • 1) Tekin, A., Ata, F., “An ınternet based virtual laboratory developed for speed control of an induction motor using PI controller”, Fırat Univ. Journal of Engineering, 21:2 , 161-172, (2009).
  • 2) Vodyakho , O., Fleming, F., Steurer, M., Edrington, C., “ Implementation of A Virtual Induction Machine Test Bed Utilizing the Power Hardware-in-The-Loop Concept”, Electric Ship Technologies Symposium (ESTS), 2011 IEEE, pp:52-55, (2011).
  • 3) Kandemir, E., Duru, H., T., Çamur, S., Arifoglu, B., Beşer, E, “Experimental Realization and Simulation of Brushless DC Motor System”, Electrical-Electronics and Computer Engineering Symposium, (2004).
  • 4) Dumanay, A. B., Istanbullu, A., Demirtaş, M., “Remote laboratory implementation for speed control of DC motor with PWM, Electrical, Electronics Biomedical Engineering Computer Training, IV. National Symposium, (2009).
  • 5) Güner, Y., “Prepared as E-Learning of Data Collection, Data Processing and Data Preparation with LabView Program”, Marmara University, Science Institute Electrical Education Department, Master Thesis, (2005).
  • 6) Gelen, A., Yalçınöz, T., “PI control of thyristor switched capacitor (TSC) and thyristor switched reactor-based static VAR compensator (TSR-Based SVC)”, J. Fac. Eng. Arch. Gazi Univ. Vol 24, No 2, 237-244, (2009).
  • 7) Coteli R., Aydogmus Z., “Reactive power compensation by PWM-Statcom”, Journal of Polytechnic, Cilt: 10 Sayı: 2 s.123-128, 2007 Vol: 10 No: 2 pp.123-128, (2007).
  • 8) Sesveren, O., “Reactive Power Compensation Education Set for ANN Based Systems”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2008).
  • 9) Bilki F., “Reactive Power Compensation with PLC Control”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2008).
  • 10) Baran, L., “A PLC Based Monitoring and Control of Power Factor of A Three Phase Inductıon Motors”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2010).
  • 11) Bayındır, R., Görgün, A., “A compensator applicatıon using synchronous motor with a PI controller based on PIC”, Pamukkale University Engineering Faculty, Journal of Enginneering Sciences, 15: 87-99, (2009).
  • 12) Bayram, M., “Reactive Power Compensation of Power Installations”, Birsen Publication, Istanbul, Turkey, (2010).
  • 13) Colak, I., Synchronous Motors, Gazi University, Technical Education Faculty, Ankara, Turkey, (2010).
  • 14) Kareem A. H., “Microcontroller Based Active and Reactive Power Measurement “, International Journal of Computational Engineering Research (IJCER), Vol-4, pp:11-18, (2014).
  • 15) Deusinger, B., Lehr, M., Binder, A., “Determination of efficiency of permanent magnet synchronous machines from summation of losses”, International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 619-624, (2014).
  • 16) Bayındır R., Colak I., Kabalcı E., Görgün A., “PID controlled synchronous motor for power factor correction”, 2nd International on Power Engineering, Energy and Electrical Drives POWERENG-2009, Portugal, 141-159, (2009).
  • 17) Colak, I., “Asynchronous Motor”, Seçkin Press, 20-35, Ankara, Turkey, (2008).
  • 18) Sarıoglu, M. K., Gokasan, M., Bogosyan, S.,” Asynchronous Motors and Control”, Birsen Press, 2009.
  • 19) Shin, K., Choi, J., Cho, H., “Characteristic Analysis of Interior Permanent-Magnet Synchronous Machine with Fractional-Slot Concentrated Winding Considering NonlinearMagnetic Saturation”, IEEE Transactions On Applied Superconductivity, Vol:26, 2016.
  • 20) Rashid M.H., “Power Electronics”, Prentice Hall, 106-114 (2011).
  • 21) Sesveren, O., “ANN software based on object and simulation of reactive power compensator with synchronous motor”, Gazi University, Graduate School of Natural and Applied Sciences, (2008).

A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor

Yıl 2017, Cilt: 20 Sayı: 1, 61 - 69, 01.03.2017

Öz

In this study, reactive power demand of the load or the load groups has been provided with a synchronous motor through a web interface as user controlled. For the realization of reactive power compensation and monitoring the system via Internet, a data acquisition card (DAQ) has been used which has superior properties compared to other controllers such as PLC and PIC. In this study, adding inductive and resistive load to the network, three-phase voltage and three-phase current values are taken from the network and the power factor value of the system can be monitored via a visual web interface. Active, reactive and apparent power value can be observed in real time via the interface. A new approach for computer-controlled and monitored reactive power compensation systems through the internet that is uncommon in the literature is presented with this experimental system.

Kaynakça

  • 1) Tekin, A., Ata, F., “An ınternet based virtual laboratory developed for speed control of an induction motor using PI controller”, Fırat Univ. Journal of Engineering, 21:2 , 161-172, (2009).
  • 2) Vodyakho , O., Fleming, F., Steurer, M., Edrington, C., “ Implementation of A Virtual Induction Machine Test Bed Utilizing the Power Hardware-in-The-Loop Concept”, Electric Ship Technologies Symposium (ESTS), 2011 IEEE, pp:52-55, (2011).
  • 3) Kandemir, E., Duru, H., T., Çamur, S., Arifoglu, B., Beşer, E, “Experimental Realization and Simulation of Brushless DC Motor System”, Electrical-Electronics and Computer Engineering Symposium, (2004).
  • 4) Dumanay, A. B., Istanbullu, A., Demirtaş, M., “Remote laboratory implementation for speed control of DC motor with PWM, Electrical, Electronics Biomedical Engineering Computer Training, IV. National Symposium, (2009).
  • 5) Güner, Y., “Prepared as E-Learning of Data Collection, Data Processing and Data Preparation with LabView Program”, Marmara University, Science Institute Electrical Education Department, Master Thesis, (2005).
  • 6) Gelen, A., Yalçınöz, T., “PI control of thyristor switched capacitor (TSC) and thyristor switched reactor-based static VAR compensator (TSR-Based SVC)”, J. Fac. Eng. Arch. Gazi Univ. Vol 24, No 2, 237-244, (2009).
  • 7) Coteli R., Aydogmus Z., “Reactive power compensation by PWM-Statcom”, Journal of Polytechnic, Cilt: 10 Sayı: 2 s.123-128, 2007 Vol: 10 No: 2 pp.123-128, (2007).
  • 8) Sesveren, O., “Reactive Power Compensation Education Set for ANN Based Systems”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2008).
  • 9) Bilki F., “Reactive Power Compensation with PLC Control”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2008).
  • 10) Baran, L., “A PLC Based Monitoring and Control of Power Factor of A Three Phase Inductıon Motors”, Master Thesis, Gazi University, Graduate School of Natural and Applied Sciences, (2010).
  • 11) Bayındır, R., Görgün, A., “A compensator applicatıon using synchronous motor with a PI controller based on PIC”, Pamukkale University Engineering Faculty, Journal of Enginneering Sciences, 15: 87-99, (2009).
  • 12) Bayram, M., “Reactive Power Compensation of Power Installations”, Birsen Publication, Istanbul, Turkey, (2010).
  • 13) Colak, I., Synchronous Motors, Gazi University, Technical Education Faculty, Ankara, Turkey, (2010).
  • 14) Kareem A. H., “Microcontroller Based Active and Reactive Power Measurement “, International Journal of Computational Engineering Research (IJCER), Vol-4, pp:11-18, (2014).
  • 15) Deusinger, B., Lehr, M., Binder, A., “Determination of efficiency of permanent magnet synchronous machines from summation of losses”, International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM), 619-624, (2014).
  • 16) Bayındır R., Colak I., Kabalcı E., Görgün A., “PID controlled synchronous motor for power factor correction”, 2nd International on Power Engineering, Energy and Electrical Drives POWERENG-2009, Portugal, 141-159, (2009).
  • 17) Colak, I., “Asynchronous Motor”, Seçkin Press, 20-35, Ankara, Turkey, (2008).
  • 18) Sarıoglu, M. K., Gokasan, M., Bogosyan, S.,” Asynchronous Motors and Control”, Birsen Press, 2009.
  • 19) Shin, K., Choi, J., Cho, H., “Characteristic Analysis of Interior Permanent-Magnet Synchronous Machine with Fractional-Slot Concentrated Winding Considering NonlinearMagnetic Saturation”, IEEE Transactions On Applied Superconductivity, Vol:26, 2016.
  • 20) Rashid M.H., “Power Electronics”, Prentice Hall, 106-114 (2011).
  • 21) Sesveren, O., “ANN software based on object and simulation of reactive power compensator with synchronous motor”, Gazi University, Graduate School of Natural and Applied Sciences, (2008).
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Ramazan Bayındır

Seyfettin Vadi Bu kişi benim

Yayımlanma Tarihi 1 Mart 2017
Gönderilme Tarihi 22 Şubat 2016
Yayımlandığı Sayı Yıl 2017 Cilt: 20 Sayı: 1

Kaynak Göster

APA Bayındır, R., & Vadi, S. (2017). A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor. Politeknik Dergisi, 20(1), 61-69.
AMA Bayındır R, Vadi S. A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor. Politeknik Dergisi. Mart 2017;20(1):61-69.
Chicago Bayındır, Ramazan, ve Seyfettin Vadi. “A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor”. Politeknik Dergisi 20, sy. 1 (Mart 2017): 61-69.
EndNote Bayındır R, Vadi S (01 Mart 2017) A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor. Politeknik Dergisi 20 1 61–69.
IEEE R. Bayındır ve S. Vadi, “A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor”, Politeknik Dergisi, c. 20, sy. 1, ss. 61–69, 2017.
ISNAD Bayındır, Ramazan - Vadi, Seyfettin. “A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor”. Politeknik Dergisi 20/1 (Mart 2017), 61-69.
JAMA Bayındır R, Vadi S. A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor. Politeknik Dergisi. 2017;20:61–69.
MLA Bayındır, Ramazan ve Seyfettin Vadi. “A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor”. Politeknik Dergisi, c. 20, sy. 1, 2017, ss. 61-69.
Vancouver Bayındır R, Vadi S. A Web-Based Educational Tool For Simulation of Reactive Power Compensation With Synchronous Motor. Politeknik Dergisi. 2017;20(1):61-9.
 
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