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Andrii Chub, Oleksandr Husev and Dmitri Vinnikov

: Springer Berlin Heidelberg, 2013, pp. 334-342. [3] Yuan Li, J. Anderson, F.Z. Peng, Dichen Liu, "Quasi-Z-Source Inverter for Photovoltaic Power Generation Systems," in Proceedings of Twenty- Fourth Annual IEEE Applied Power Electronics Conference and Exposition, (APEC’2009), pp. 918-924, 15-19 Feb. 2009. [4] Liu Yushan, Baoming Ge, Fang Zheng Peng, Abu Rub Haitham, Anibal T. de Almeida, Fernando J.T.E. Ferreira, "Quasi-Z-Source Inverter Based PMSG Wind Power Generation System," in Proceedings of 2011 IEEE Energy Conversion Congress and

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Krzysztof Rogowski, Ryszard Maroński and Janusz Piechna

. doi:10.2514/6.2013-913. [9] W. Tjiu, T. Marnoto, S. Mat, M.H. Ruslan, and K. Sopian. Darrieus vertical axis wind turbine for power generation II: Challenges in HAWT and the opportunity of multi-megawatt Darrieus VAWT development. Renewable Energy , 75:560–571, March 2015. 10.1016/j.renene.2014.10.039. [10] M. Islam, D.S.K. Ting, and A. Fartaj. Aerodynamic models for Darrieus-type straight-bladed vertical axis wind turbines. Renewable and Sustainable Energy Reviews , 12(4):1087–1109, 2008. doi: 10.1016/j.rser.2006.10.023. [11] M Abdul Akbar and V

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Czesław Dymarski, Paweł Dymarski and Jędrzej Żywicki

// ARCHIVES OF MECHANICS. -Vol. 64, nr. 2 (2012), s.153-175. 4. Barthelmie R., Pryor S., Frandsen S., Hansen K., Schepers J., K. Rados K., Schlez W., Neubert A., Jensen L. and Neckelmann S.: Quantifying the Impact of Wind Turbine Wakes on Power Output at Offshore Wind Farms. Journal of Atmospheric and Oceanic Technology Vol. 27, 2010, 5. Ackermann T., Söder L.: Wind energy technology and current status: a review, Renewable and Sustainable Energy Reviews, 4 (2000), pp. 315-374 6. Markard J., Petersen R.: The offshore trend

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Naziha Harrabi, Maher Kharrat, Abdel Aitouche and Mansour Souissi

References Babu, N.R. and Arulmozhivarman, P. (2013). Wind energy conversion systems-a technical review, Journal of Engineering Science and Technology 8(4): 493-507. Blaabjerg, F., Liserre, M. and Ma, K. (2012). Power electronics converters for wind turbine systems, IEEE Transactions on Industry Applications 48(2): 708-719. Boyd, S., El Ghaoui, L., Feron, E. and Balakrishnan, V. (1994). Linear Matrix Inequalities in System and Control Theory, SIAM, Philadelphia, PA. Camacho, E.F., Samad, T

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Aleksandrs Urbahs, Margarita Urbaha and Kristīne Carjova

. Fateev, Vetrodvigateli i vetroustanovki. Moscow: OGIZ, 1948. [5] P. Jamieson, Innovation in Wind Turbine Design . Wiley & Sons, 2011. https://doi.org/10.1002/9781119975441 [6] V. Lyatkher, Wind Power: Turbine Design, Selection, and Optimization . Wiley & Sons, 2013. https://doi.org/10.1002/9781118720851 [7] National Research Council. Assessment of Research Needs for Wind Turbine Rotor Materials Technology. Washington: National Academies Press, 1991. [8] V. Rodionov, Problemy nastojashhego i vozmozhnosti budushhego. Moscow: JeNAS, 2010

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Bidyadhar Subudhi and Pedda Suresh Ogeti

-PV models. Control Eng.Practice , 13(2), (2005), 247-255. [4] D. LEITH and W. LEITHEAD: Appropriate realisation of gain-scheduled controllers with application to wind turbine regulation. Int. J. Control , 65(2), (2005, 223-248. [5] K. STOL, B. RIGNEY and M. BALAS: Disturbance accommodating control of a variable-speed turbine using a symbolic dynamics structural model. Proc. 2000ASME Wind Energy Symp. , Reno, Nevada, (2000), 84-90. [6] D.H. BATTISTA, R.J. MANTZ and C.F. CHRISTIANSEN: Dynamical sliding mode power control of

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A. Sikorski and A. Kuźma

References F. Blaabjerg, F. Iov, R. Teodorescu, and Z. Chen, "Power electronics in renewable energy systems", Power Electronics and Motion Control Conf. 12, 1-17 (2006). A.D. Hansen, C. Jauch, P. Sorensen, F. Iov, and F. Blaabjerg, "Dynamic wind turbine models in power system simulation tool DigSilent", Report Risoe -R-1400, 1-80 (2003). R. Jones, "Power electronic converters for variable speed wind turbines", Power Electronics for Renewable Energy 170, 1-8 (1997

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O. Linkevics, P. Ivanova and M. Balodis

REFERENCES 1. Ivanova, P., Sauhats, A., Linkevičs, O., and Balodis, M. (2016). Combined heat and power plants towards efficient and flexible operation. 2016 IEEE 16 th International Conference on Environmental and Electrical Engineering (EEEIC) , 7–10 June 2016 (pp. 230–235). Piscataway, NJ: IEEE. 2. Troy, N. (2011). Generator cycling due to high penetrations of wind power . Retrieved 11 May 2016, from http://erc.ucd.ie/files/theses/Niamh%20PhD%20-%20Generator%20Cycling%20due%20to%20High%20Penetrations%20of%20Wind%20Power.pdf 3. PEi. The

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G. Diļev, B. Ose-Zaļā and E. Jakobson

References Ackerman, T. (2005). Wind Power in Power Systems. Stockholm: John Wiley & Sons Ltd, 691 p. Diļevs, G., Levin, N., Pugachev, V., & Ribickis, L. (2009). Divpusējās barošanas asinhronais generators (Publ. 2009.08.20) Patenti un preču zīmes , (8), p.1103. Левин, Н., & Серебряков, А. (1976). Электропривод на базе двигателей со взаимно-неподвижными обмотками. Электрические машиы и приводы, Вып. 3, Рига. Dilevs, G., Levin, N., & Pugachev, V. (2007

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T. Bogaraj, J. Kanakaraj and K. Mohan Kumar

., Optimal Design of Hybrid Energy System with PV/Wind Turbine/ Storage: A Case Study. Proc. Int. Conf. Virtual Power Plants, Distributed Generation, Microgrids, Renewables and Storage (IEEE SmartGridComm), Brussels, Belgium, pp. 511-516 (2011). [4] Kandula Murali Krishna, Optimization Analysis of Microgrid using Homer - A Case Study. Proc. Int. Conf. Annual IEEE India Conference (INDICON2011), Jhansi, India, pp. 1-5 (2011). [5] Hanaa T. El-Madany, Faten H. Fahmy, Ninet M.A. El-Rahman, Hassen T. Dorrah, Optimization and Feasibility Analysis