Details

Title

Generator with modulated magnetic flux for wind turbines

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2017

Volume

65

Issue

No 4

Authors

Divisions of PAS

Nauki Techniczne

Coverage

469-478

Date

2017

Identifier

DOI: 10.1515/bpasts-2017-0052 ; ISSN 2300-1917

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2017; 65; No 4; 469-478

References

Carlin (2001), The History and State of the Art of Variable - Speed Wind Turbine Technology Technical report NREL National Renewal Energy Laboratory Golden CO, USA, 500. ; Akhmatov (2007), Induction Generators for Wind Multi -, Power Science. ; Pellergrino (2003), Design of direct drive low speed machines Industry Applications Conference thIAS Meeting, Annual, 23, 1421. ; Göteborg (1996), Grauers Design of Direct - Driven Permanent - Magnet Generators for Wind Turbines Ph Dissertation Chalmers University of Technology, null, 14. ; Schulz (2009), Improved Grid of Wind Systems Pol, Integration Energy Tech, 311. ; Dubois (2004), Optimized Permanent Magnet Generator Topologies for Direct Drive Wind Turbines Ph Dissertation Delft University of Technology Delft Netherlands, null, 15. ; (null), MITSUBISHI ELECTRIC Module Loss Simulator http www mitsubishielectric com semiconductors dm u als form html, Power. ; Hansen (2001), Conceptual Survey of Generators for Wind Turbines National Laboratory, Power Electronics. ; Masson (2005), High power density superconducting motor for all - electric aircraft propulsion on, IEEE Transactions Applied Superconductivity, 30, 2226. ; Polinder (2006), Comparison of direct - drive and geared generator concepts for wind turbine on, IEEE Transactions Energy Conversion, 18, 725. ; Polinder (2007), Concept Report on Generator Topologies Mechanical and Electromagnetic Optimization Deliverable No, null, 1. ; Council (null), Global Wind http www gwec net publications global wind report, Energy. ; Chen (2005), Issues of connecting wind farms into power systems Proceedings of Transission and Distribution Conference and Exhibition Asia and Pacific, IEEE. ; Superczynski (1997), Homopolar motor with high temperature superconductor field windings on, IEEE Transactions Applied Superconductivity, 31, 513. ; (null), http www mitsubishielectric com semiconductors products powermod intelligentpmod index html, null. ; Goudarzi (2011), Aerodynamic and Electromagnetic Modeling and Analysis of a Variable Torque Generator for Wind Turbine Applications MA Thesis Department of Mechanical Engineering University of Maryland Baltimore MD, USA, 11. ; Schiferl (2008), High - temperature superconducting synchronous motors : economic issues for industrial applications on Industry Applications, IEEE Transactions, 25, 1376. ; Eckels (2004), high temperature superconductor ship propulsion motor design and test results, Naval Engineers Journal, 20, 117. ; (2000), Lampola Directly Driven Low - Speed Permanent - Magnet Generators for Wind Power Applications Ph Dissertation Helsinki University of Technology Helsinki Finland, null, 16. ; Gupta (2012), Some investigations on recent advances in wind energy conversion systems, null, 22, 28. ; Krystkowiak (2011), Simulation and experimental models of phase diode rectifier with current modulation in DC circuit ElektrotechnicznyR, null, 87. ; Lewis (2007), direct drive wind turbine HTS generator, IEEE Power Engineering Society General Meeting, 26. ; ESAT (2005), Soens Impact of Wind in a Future Grid Ph Dissertation Department of, Energy Power Electrical Engineering. ; Pantea (2016), Six - phase axial flux permanent magnet generator model : simulation and experimental validation th International Symposium on Industrial, IEEE Electronics, 25, 192. ; Muller (2006), Grid compatibility of variable speed wind turbines with directly coupled synchronous generator and hydro - dynamically controlled gearbox thInternational Workshop on Large - Scale Integration of Wind Power and Transmission Networks for Offshore Wind Farms, null. ; Kalsi (2002), status of superconducting rotating machines Meeting, Development IEEE Power Engineering Society, 28, 1. ; (null), http analog alfine pl oferta produkty alfine systemy uruchomieniowe, null. ; Semken (2012), Direct - drive permanent magnet generators for high - power wind turbines : benefits and limiting factors, IET Renewable Power Generation, 19, 1. ; Strzelecki (2000), The Factor of Correction Method in Polish, Power Circuits, 120.
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