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G. Zaleskis and I. Rankis

REFERENCES 1. Suskis, P., & Rankis, I. (2012). Buck-boost DC-DC converter for wind and hydrogen based autonomous energy supply system. Biennial Baltic Electronics Conference (BEC) 2012 , 215–218. 2. Koutroulis, E., & Kalaitzakis, K. (2006). Design of a maximum power tracking system for wind-energy-conversion applications. IEEE Transactions on Industrial Electronics, 53 (2), 486–494. 3. Eltamaly, A.M., Alolah, A.I., & Farh, H.M. (2013). Maximum power extraction from utility-interfaced wind turbines. New Developments in Renewable Energy. InTech

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Edmunds Kamoliņš

References E. Daskova, E. Kamolins, N. Levin. Directly-driven multipolar electrical generators for wind plants of power stations. Latvian journal of physics and technical sciences, No.4, Riga, 2004, pp. 41-47. John W. Twidell and Anthony D. Weir. Renewable Energy Resources. London: E.&F. N. Spon. 1986, p. 392. R. Rabinovici, N. Ben-Hail. Generalized reluctance generator with DC excitation. International conference on electrical machines, Helsinki, Finland, vol. III, 2000, pp.1559

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Yagang Zhang, Chenhong Zhang, Yuan Zhao and Shuang Gao

R eferences [1] “Global wind energy council” (GWEC) [DB/OL]. [2] E. T. Renani, M. F Mohamad Elias and N. A. Rahim, “Using data-driven approach for wind power prediction: A comparative study”, Energy Conversion and Management , vol. 118, pp. 193-203.June.2016.doi: 10.1016/j.enconman.2016.03.078. [3] A. Khosravi, R. N. N. Koury, L. Machado and J. J. G. Pabon, “Prediction of wind speed and wind direction using artificial neural network, support vector regression and adaptive neuro-fuzzy inference system”, Sustainable Energy Technologies and

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Dariusz Pleban, Jan Radosz and Bożena Smagowska

Acoustical Society of America, 139, 3, 1480-1492. 30. Wind power in Poland (2016), [in Polish: Energetyka wiatrowa w Polsce], https://pl.wikipedia.org/wiki/EnergetykawiatrowawPolsce (retrieved February 14, 2017).

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Leszek Dawid

of wind farms localization in light of new law on investments concerning wind power stations. Infrastructure and Ecology of Rural Areas. No. IV/1/2017 p. 1445–1455. Directive 2001/77/EC of the European Parliament and of the Council of 27 September 2001 on the promotion of electricity produced from renewable energy sources in the internal electricity market. EU OJ L 283, 27/10/2001. Directive 2003/30/EC of the European Parliament and of the Council of 8 May 2003 on the promotion of the use of biofuels or other renewable fuels for transport. EU OJ L 123

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Maziar Izadbakhsh, Alireza Rezvani and Majid Gandomkar

-based maximum power point tracking of solar PV modules for fast varying solar radiations , International Journal of Sustainable Energy 31: 383-398 (2012). [20] Afghoul H., Krim F., Chikouche S., Increase the photovoltaic conversion efficiency using Neurofuzzy control applied to MPPT. IEEE Renewable and Sustainable Energy Conference IRSEC, Ouarzazate, pp. 348-353 (2013). [21] Hayatdavudi M., Saeedimoghadam M., Nabavi M.H., Adaptive Control of Pitch Angle of Wind Turbine using a Novel Strategy for Management of Mechanical Energy Generated by Turbine in Different Wind

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Elvisa Bećirović, Jakub Osmić, Mirza Kušljugić and Nedjeljko Perić

References [1] WANG, Y.—DELILLE, G.—BAYEM, H.—GUILLAUD, X.—FRANCOIS, B.: High Wind Power Penetration in Isolated Power Systems-Assessment of Wind Inertial and Primary Frequency Responses, IEEE Trans. Power Systems 28 No. 3 (Aug 2013), 2412–2420. [2] ALTIN, M.: Dynamic Frequency Response of Wind Power Plants, PhD thesis, Aalborg University, Department of Energy Technology Aalborg, Denmark, November 2012. [3] ANAYA-LARA, O.—JENKINS, N.—EKANAYAKE, J.—CARTWRIGHT, P.—HUGHES, M.: Wind Energy Generation – Modeling and Control, Willey, West Sussex, U.K., 2009

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Przemysław Busse and Izabella Rząd

and wind farms . Risk assessment and mitigation. Edit Quercus, Madrid. Schaub T., Klaassen R.H.G., Bouten W., Schlaich A.E., Ben K.J. 2017. EOU 2017. Abstracts. Scottish Natural Heritage. 2011. Use of Avoidance Rates in the SNH Wind Farm Collosion Risk Model. http://www.snh.gov.uk/docs/A305435.pdf Smales I. 2006. Impacts of avian collisions with wind power turbines: an overview of the modelling of cumulative risks posed by multiple wind farms . BIOSIS Research Report.

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A. Sokolovs, L. Grigans, E. Kamolins and J. Voitkans

References 1. Kana, C. L., Thamodharan, M., & Wolf, A. (2001). System management of a windenergy converter. IEEE Transactions on Power Electronics, 16(3), 375-381. doi:10.1109/63.923770 2. Lu, H.-C., & Chang-Chien, L.-R. (2010). Use of wind turbine emulator for the WECS development. In: International Power Electronics Conference (IPEC), (pp. 3188-3195). 3. Monfared, M., Madadi Kojabadi, H., & Rastegar, H. (2008). Static and dynamic wind turbine simulator using a converter controlled dc motor. Renewable Energy

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Pawel Mlodzikowski, Adam Milczarek and Mariusz Malinowski

Meeting, 1995, vol. 3, pp. 2422-2429. [3] F. Blaabjerg, D. O. Neacsu, and J. K. Pedersen, “Adaptive SVM to compensate DC-link voltage ripple for four-switch three-phase voltagesource inverters,” IEEE Transactions on Power Electronics, vol. 14, no. 4, pp. 743-752, Jul. 1999. [4] E. C. dos Santos, E. R. C. da Silva, and A. A. M. Bento, “AC-DC-AC Power Converters with Novel Approach to Power Factor Correction in Three-Phase Systems,” in Proceedings of 24th Annual IEEE Applied Power Electronics Conference and Exposition, 2009, pp. 677