Araştırma Makalesi
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Yıl 2018, Cilt: 31 Sayı: 4, 1141 - 1154, 01.12.2018

Öz

Kaynakça

  • [1] P Kou, D Liang, F Gao, L Gao, “Coordinate predictive control of DFIG based wind battery hybrid system using non Gaussian wind power predictive distribution”, IEEE Trans. On energy conversion Vol. 30, No.2, pp. 681-695, June 2015.
  • [2] Kiran, and Sirdeep Singh, “Emulation of a Low Power Wind Turbine using DC Motor mechanically coupled to Synchronous Generator in Matlab- Simulink”, Proc. of the Intl. Conf. on Advances In Engineering And Technology - ICAET, pp. 219-223, 2014.
  • [3] Neetu Singh, and Dr. Bhupal Singh, “Design and Modeling of Wind Energy Conversion System Based on PMSG Using MPPT Technique”, International Journal of Scientific Research Engineering and Technology (IJSRET), Volume 5, Issue 2, pp. 96-100, Feb. 2016.
  • [4] Mamatha Sandhu and Tilak Thakur, “Issues, Challenges, Causes, Impacts and Utilization of Renewable energy Sources – Grid Integration”, International Journal of Engineering Research and Applications ISSN: 2248-9622, Vol. 4, Issue 3, (Version 1), pp. 636-643, March 2014.
  • [5] S A Saleh, R. Ahashan, “Resolution level controlled WM inverter for PMG based wind energy conversion system”, IEEE Trans. On Industry Applications, Vol. 48, No. 2, pp. 750-763, Mar. 2012.
  • [6] Y K Tan, S K Panda, “Optimized wind energy harvesting system using resistance emulator and active rectifier for wireless sensor nodes”, IEEE Trans. On Power Electronics, Vol. 26, No. 1, pp. 38-50, Jan. 2011.
  • [7] Ahemad Khan, Ismail Hossain, “Intelligent control based maximum power extraction strategy for wind energy conversion system”, IEEE Canadian Conference on Electrical and Computer Engineering, 2011.
  • [8] S W Mohod, and M V Aware, " Laboratory development of wind turbine simulator using variable speed induction motor", International Journal of Engineering, Science and Technology, Vol. 3, No. 5, pp. 73-82, 2011.
  • [9] Weiwei LI, Dianguo XU, Wei ZHANG, Hongfei MA, “Research on Wind Turbine Emulation based on DC Motor”, IEEE, pp. 2589- 2593, 2007. [10] M M Amin, O A Mohammed, “Development of high performance grid connected wind energy conversion systems for optimum utilization of variable speed wind turbine”, IEEE Trans. On Sustainable Energy, Vol. 2, No. 3, pp. 235-245, July 2011.
  • [11] A Mesemanolis, C Mademlis, I Kioskeridis, “Optimal efficiency control strategy in wind energy conversion system with induction generator”, IEEE Journal of emerging and selected topics in power electronics, Vol. 1, No. 4, pp. 238-246, Dec. 2013.
  • [12] T F Chan, K A Nigim, L L Lai, “Voltage and Frequency Control Of Self Excited Slip Ring Induction Generator”, IEEE Trans. On Energy Conv. Vol. 19, No. 1, Mar. 2004, pp. 81- 87.
  • [13] P W Carlin, A S Laxson, E B Muljadi, The history and state of art of variable speed wind turbine technology, NREL, Feb. 2001.
  • [14] E Muljadi, M Singh, and V. Gevorgian, “Fixed speed and variable slip wind turbine providing spinning reserves to the grid”, NREL, pp. 1- 5, July 2013.
  • [15] H M Yassin, H H Hanafy, and M Hallaufa, “Optimization of PMSG variable speed wind energy conversion system controller parameter by biogeography-based optimization”, Journal of Electrical Engineering, pp.1-12, Jan. 2015
  • [16] Yun Su Kim, Il Yop Chung, Seung Il Moon, “Tuning of the PI Controllers Parametersof a PMSG Wind Turbine to Improve Control Performance under Various Wind Speeds”, Energies, Vol. 8, pp. 1406 -1425, 2015.
  • [17] Rupesh Borker, V A Kulkarni, “Modelling and Simulation of Wind powered Permanent Magnet Direct Current (PMDC) Motor using Matlab”, International Journal Of Science and Research (IJSR), Vol.4, Issue 4, pp. 2975 – 2979, April 2015.
  • [18] Jovitha Jerome, Virtual Instrumentation Using LabVIEW, PHI Learning Private Limited, New Delhi.
  • [19] A Mondal, S Yuvarajan, “A dSPACE-based control of a hybrid renewable energy system with wind and photovoltaic power”, IEEE International Symposium on Power Electronics for Distributed Generation Systems, July 2013.
  • [20] Yan-xia Shen, Fan Li, Dinghui Wu, Ting Long Pan, Xiang-xia Liu, “dSpace based direct-driven permanent magnet synchronous wind power system modeling and simulation”, IEEE UKACC International Conference on Control, 2012.
  • [21] Siegfried Heier, Book on, “Grid Integration of Wind Enegy Conversion System”, John Wiley and Sons Ltd, 1998.

Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction

Yıl 2018, Cilt: 31 Sayı: 4, 1141 - 1154, 01.12.2018

Öz

Wind power generation capacity
in India has significantly increased over the few decades and the total
installed wind power capacity has grown up to 32.72 GW (as on October 2017),
which ranks fourth largest in the world. The scope for wind farm as assessed
using Geographic Information System (GIS) platform is found to be more than
2000 GW. So there is a lot of scope for expansion wind power projects provided
studies are conducted on the selection of its components. One of the main
components of Wind Energy Conversion System (WECS) is the electrical generator
apart from the prime mover and other structural parts.  This paper introduces an experimental setup
for the study of different types of electrical generators and their feasibility
for different wind conditions. In this setup, Squirrel Cage Induction Generator
(SCIG), Slip Ring Induction Generator (SRIG), Permanent Magnet Synchronous
Generator (PMSG) and Permanent Magnet DC Generator (PMDC) are available for
study. These generators are coupled to a Separately Excited DC motor via a
portable coupling arrangement. The separately excited DC motor emulates the
wind turbine. The results of the experimental setup are validated and
presented. 

Kaynakça

  • [1] P Kou, D Liang, F Gao, L Gao, “Coordinate predictive control of DFIG based wind battery hybrid system using non Gaussian wind power predictive distribution”, IEEE Trans. On energy conversion Vol. 30, No.2, pp. 681-695, June 2015.
  • [2] Kiran, and Sirdeep Singh, “Emulation of a Low Power Wind Turbine using DC Motor mechanically coupled to Synchronous Generator in Matlab- Simulink”, Proc. of the Intl. Conf. on Advances In Engineering And Technology - ICAET, pp. 219-223, 2014.
  • [3] Neetu Singh, and Dr. Bhupal Singh, “Design and Modeling of Wind Energy Conversion System Based on PMSG Using MPPT Technique”, International Journal of Scientific Research Engineering and Technology (IJSRET), Volume 5, Issue 2, pp. 96-100, Feb. 2016.
  • [4] Mamatha Sandhu and Tilak Thakur, “Issues, Challenges, Causes, Impacts and Utilization of Renewable energy Sources – Grid Integration”, International Journal of Engineering Research and Applications ISSN: 2248-9622, Vol. 4, Issue 3, (Version 1), pp. 636-643, March 2014.
  • [5] S A Saleh, R. Ahashan, “Resolution level controlled WM inverter for PMG based wind energy conversion system”, IEEE Trans. On Industry Applications, Vol. 48, No. 2, pp. 750-763, Mar. 2012.
  • [6] Y K Tan, S K Panda, “Optimized wind energy harvesting system using resistance emulator and active rectifier for wireless sensor nodes”, IEEE Trans. On Power Electronics, Vol. 26, No. 1, pp. 38-50, Jan. 2011.
  • [7] Ahemad Khan, Ismail Hossain, “Intelligent control based maximum power extraction strategy for wind energy conversion system”, IEEE Canadian Conference on Electrical and Computer Engineering, 2011.
  • [8] S W Mohod, and M V Aware, " Laboratory development of wind turbine simulator using variable speed induction motor", International Journal of Engineering, Science and Technology, Vol. 3, No. 5, pp. 73-82, 2011.
  • [9] Weiwei LI, Dianguo XU, Wei ZHANG, Hongfei MA, “Research on Wind Turbine Emulation based on DC Motor”, IEEE, pp. 2589- 2593, 2007. [10] M M Amin, O A Mohammed, “Development of high performance grid connected wind energy conversion systems for optimum utilization of variable speed wind turbine”, IEEE Trans. On Sustainable Energy, Vol. 2, No. 3, pp. 235-245, July 2011.
  • [11] A Mesemanolis, C Mademlis, I Kioskeridis, “Optimal efficiency control strategy in wind energy conversion system with induction generator”, IEEE Journal of emerging and selected topics in power electronics, Vol. 1, No. 4, pp. 238-246, Dec. 2013.
  • [12] T F Chan, K A Nigim, L L Lai, “Voltage and Frequency Control Of Self Excited Slip Ring Induction Generator”, IEEE Trans. On Energy Conv. Vol. 19, No. 1, Mar. 2004, pp. 81- 87.
  • [13] P W Carlin, A S Laxson, E B Muljadi, The history and state of art of variable speed wind turbine technology, NREL, Feb. 2001.
  • [14] E Muljadi, M Singh, and V. Gevorgian, “Fixed speed and variable slip wind turbine providing spinning reserves to the grid”, NREL, pp. 1- 5, July 2013.
  • [15] H M Yassin, H H Hanafy, and M Hallaufa, “Optimization of PMSG variable speed wind energy conversion system controller parameter by biogeography-based optimization”, Journal of Electrical Engineering, pp.1-12, Jan. 2015
  • [16] Yun Su Kim, Il Yop Chung, Seung Il Moon, “Tuning of the PI Controllers Parametersof a PMSG Wind Turbine to Improve Control Performance under Various Wind Speeds”, Energies, Vol. 8, pp. 1406 -1425, 2015.
  • [17] Rupesh Borker, V A Kulkarni, “Modelling and Simulation of Wind powered Permanent Magnet Direct Current (PMDC) Motor using Matlab”, International Journal Of Science and Research (IJSR), Vol.4, Issue 4, pp. 2975 – 2979, April 2015.
  • [18] Jovitha Jerome, Virtual Instrumentation Using LabVIEW, PHI Learning Private Limited, New Delhi.
  • [19] A Mondal, S Yuvarajan, “A dSPACE-based control of a hybrid renewable energy system with wind and photovoltaic power”, IEEE International Symposium on Power Electronics for Distributed Generation Systems, July 2013.
  • [20] Yan-xia Shen, Fan Li, Dinghui Wu, Ting Long Pan, Xiang-xia Liu, “dSpace based direct-driven permanent magnet synchronous wind power system modeling and simulation”, IEEE UKACC International Conference on Control, 2012.
  • [21] Siegfried Heier, Book on, “Grid Integration of Wind Enegy Conversion System”, John Wiley and Sons Ltd, 1998.
Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Electrical & Electronics Engineering
Yazarlar

Sheeba Babu Bu kişi benim

Ashok Kumar Loganathan Bu kişi benim

Indragandhi Vaıravasundaram

Yayımlanma Tarihi 1 Aralık 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 31 Sayı: 4

Kaynak Göster

APA Babu, S., Loganathan, A. K., & Vaıravasundaram, I. (2018). Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction. Gazi University Journal of Science, 31(4), 1141-1154.
AMA Babu S, Loganathan AK, Vaıravasundaram I. Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction. Gazi University Journal of Science. Aralık 2018;31(4):1141-1154.
Chicago Babu, Sheeba, Ashok Kumar Loganathan, ve Indragandhi Vaıravasundaram. “Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction”. Gazi University Journal of Science 31, sy. 4 (Aralık 2018): 1141-54.
EndNote Babu S, Loganathan AK, Vaıravasundaram I (01 Aralık 2018) Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction. Gazi University Journal of Science 31 4 1141–1154.
IEEE S. Babu, A. K. Loganathan, ve I. Vaıravasundaram, “Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction”, Gazi University Journal of Science, c. 31, sy. 4, ss. 1141–1154, 2018.
ISNAD Babu, Sheeba vd. “Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction”. Gazi University Journal of Science 31/4 (Aralık 2018), 1141-1154.
JAMA Babu S, Loganathan AK, Vaıravasundaram I. Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction. Gazi University Journal of Science. 2018;31:1141–1154.
MLA Babu, Sheeba vd. “Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction”. Gazi University Journal of Science, c. 31, sy. 4, 2018, ss. 1141-54.
Vancouver Babu S, Loganathan AK, Vaıravasundaram I. Optimizing Electrical Generators of Wind Energy Conversion System for Efficient Power Extraction. Gazi University Journal of Science. 2018;31(4):1141-54.