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PARAMETRIC ANALYSIS FOR THE DESIGN OF A 4 POLE RADIAL PERMANENT MAGNET GENERATOR FOR SMALL WIND TURBINES

References [1] MALINOWSKI M., MILCZAREK A., KOT R., GORYCA Z., SZUSTER J.T., Optimized Energy-Conversion Systems for Small Wind Turbines: Renewable energy sources in modern distributed power generation systems, IEEE Power Electronics Magazine, Sept. 2015, 2, 3, 16-30. [2] WANG Y., XU L., Peak Power Improvement of Interior Permanent Motor for Electrified Vehicles, IEEE Electrification Magazine, June 2014, 2, 2, 25-30. [3] EL-REFAIE A.M., Motors/generators for traction/propulsion applications: A review, IEEE

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Model test of new floating offshore wind turbine platforms

References Bulder, B., van Hees, M.T.h., Henderson, A.R., Huijsmans, R.H.M., Pierik, J.T.G., Snijders, E.J.B., Wijnants, G.H. and Wolf, M.J., 2002. Study to feasibility of and boundary conditions for floating offshore wind turbines. ECN, MARIN, TNO, TUD, MSC, Lagerway the Windmaster. Jensen, J.J., Olsen, A.S. and Mansour, A.E., 2011. Extreme wave and wind response predictions. Ocean Engineering, 38 (17-18), pp.2244-2253. Jonkman, J., Butterfield, S., Musial, W. and Scott, G., 2009. Definition of a 5-MW reference

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Modeling Wind Turbines in the Simulation of Power System Dynamics

References Feltes, C.; Wrede, H. & Erlich, I., "Dynamic Behaviour of DFIG-Based Wind Turbines During Grid Faults", IEEJ Transactions on Industry Applications, 2008 Vol. 128 No. 4 pp. 396-401 P. Ledesma, J. Usaola, "Doubly Fed Induction Generator Model for Transient Stability Analysis", IEEE Trans. on Energy Conversion , vol. 20, pp. 388-397, Jun. 2005. J. B. Ekanayake, L. Holdsworth, X. G. Wu, N. Jenkins, "Dynamic Modeling of Doubly Fed Induction Generator Wind Turbines", IEEE

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Roof Pitch Angle Examination for Wind Turbine Installation

, building height and urban configuration on the energy yield and positioning of roof mounted wind turbines . Renewable Energy, 50. (2013) 1106–1118. https://doi.org/10.1016/j.renene.2012.08.068 [4] Ledo L., Kosasih P. B., Cooper P.: Roof mounting site analysis for micro-wind turbines, Renewable Energy, 36. (2011) 1379–1391. https://doi.org/10.1016/j.renene.2010.10.030 [5] World Wind Energy Association: 2017 Small Wind World Report . WWEA Head Office, Bonn 2017. https://www.wwindea.org/wp-content/uploads/filebase/small_wind_/SWWR2017-SUMMARY.pdf [6

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Model test of an inverted conical cylinder floating offshore wind turbine moored by a spring-tensioned-leg

References Bulder, B., van Hees, M.T.h., Henderson, A.R., Huijsmans, R.H.M., Pierik, J.T.G., Snijders, E.J.B.,Wijnants, G.H. and Wolf, M.J., 2002. Study to Feasibility of and Boundary Conditions for Floating Offshore Wind Turbines. ECN, MARIN, TNO, TUD, MSC, Lagerway the Windmaster. Jensen, J.J., Olsen, A.S. and Mansour, A.E., 2011. Extreme wave and wind response predictions. Ocean Engineering, 38. pp.2244-2253. Jonkman, J., 2010. Definition of the floating system for phase IV of OC3. [online] National

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An experimental study of the effect of mooring systems on the dynamics of a SPAR buoy-type floating offshore wind turbine

REFERENCES Butterfield, S., Musial, W., Jonkman, J. and Sclavounos, P., 2007. Engineering challenges for floating wind Turbines. Report number NREL/CP-500-38776 . Colorado: National Renewable Energy Laboratory (NREL). Dodaran, A.A. and Park, S.K., 2012. Development of design static property analysis of mooring system caisson for off-shore floating wind turbine. International Journal of Ocean System Engineering , 2(2), pp.97-105. Goupee, A.J., Koo, B.J., Lambrakos, K.F. and Kimball, R.W., 2012. Model tests for three floating wind turbine

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Availability and reliability analysis of large wind turbine systems in chosen localizations in Poland/Analiza dostępności i niezawodności dużej elektrowni wiatrowej w wybranych lokalizacjach w Polsce

References [1] Cengel YA, Boles MA.: Thermodynamics an engineering approach. McGraw- Hill Science/Engineering/Math. NY. 2005. [2] Hahn B., Durstewitz M., Rohrig K.: Reliability of wind turbines, experiences of 15 years with 1,500 WTs, Wind Energy. Springer, Berlin, 2007. [3] Iniyan S, Suganthi L, Jagadeesan TR.: Critical analysis of wind farms for sustainable generation. Solar Energy Vol. 64, Nos 4-6, pp. 141-149, Elsevier Sci Ltd, Exeter, 1998. [4] Lorenc H.: Atlas klimatu Polski, IMGW

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The Performance of Direct-Driven Variable Speed Wind Turbine with PMSG and Converter Systems

References [1] EL HANI S., GUEDIRA S., EL ALAMI N., Maximum Power Tracking Control Wind Turbine Based on Permanent Magnet Synchronous Generator with Complete Converter, International Journal of Smart Grid and Clean Energy, 2014, Vol. 3, No. 1, 15-21. [2] GAJEWSKI P., PIEŃKOWSKI K., Control of a Variable Speed Wind Turbine System With PMSG Generator, Maszyny Elektryczne - Zeszyty Problemowe, 2015, Vol. 107, No. 3, 75-90. [3] GAJEWSKI P., PIEŃKOWSKI K., Analysis of a Wind Energy Converter System with PMSG

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PERFORMANCE OF SENSORLESS CONTROL OF PERMANENT MAGNET SYNCHRONOUS GENERATOR IN WIND TURBINE SYSTEM

-1850. [3] ERRAMI Y., MAAROUFI M., OUASSAID M., Modeling and control strategy of PMSG based variable speed wind energy conversion system, International Conference on Multimedia Computing and Systems (ICMCS), 2011, 1-6. [4] FAN S., WANG P., WEN C., A new sensorless control strategy used in direct-drive PMSG wind power system, 2nd IEEE International Symposium on Power Electronics for Distributed Generation Systems (PEDG), 2010, 611-615. [5] GAJEWSKI P., PIEŃKOWSKI K., Control of a Variable Speed Wind Turbine System with PMSG Generator

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Measurement and Analysis of Current Signals for Gearbox Fault Recognition of Wind Turbine

References [1] Lu, W., Jing, W., Yuan, G., Yan, L. (2013). A gearbox fault diagnosis scheme based on near-field acoustic holography and spatial distribution features of sound field. Journal of Sound and Vibration, 332 (10), 2593-2610. [2] Lu, Y., Tang, J. Luo, H. (2012). Wind turbine gearbox fault detection using multiple sensors with features level data fusion. Journal of Engineering for Gas Turbines and Power , 134 (4), 907-914. [3] Bussel, V., Schontag, C. (1997). Operation and maintenance aspects

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