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Modelling, dynamics and control of a permanent magnet generator for wind power applications.

By Alexander Westlake
Topics: Wind power Electromechnical devices Electronic apparatus and appliances Automatic control Control theory
Year: 1996
OAI identifier: oai:etheses.dur.ac.uk:1642
Provided by: Durham e-Theses

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Citations

  1. (1990). A comparison of several renewable energy sources, " Review,
  2. (1993). A Comparison of the Performance of Constant Speed HAWT'S, "
  3. (1977). A Fouad, Power Systems Control and Stability. doi
  4. (1989). A model for saturation in high field permanent magnet synchronous motors, " doi
  5. (1995). A modular, permanent-magnet generator for variable speed wind turbines, " doi
  6. (2001). A new prediction model for wind turbine noise, " doi
  7. A variable speed Permanent magnet wind turbine generator and it's control, " doi
  8. (1992). Adaptive Pitch Control of a 250 Kw Wind Turbine, "
  9. (1978). Alternating Current MAchines. doi
  10. (1995). Analysis of hybrid generation system configurations utilising renewable sources, "
  11. (1991). Applied nonlinear control. Prentice-Hall,
  12. Armature motion damping for superconducting generators, " doi
  13. Assessment of the economic Value of Wind Generated Power to Electric Utilities, " doi
  14. (1994). Assessment of tonal noise from wind turbines, "
  15. Associates, "Planners, academics and engineers on wind farm study tour, "
  16. Best Practice in planning for wind energy development, "
  17. (1993). Changing the 1981 Spine Based Ducks, "
  18. Classical Control of Active Pitch Regulation of Constant Speed horizontal Axis Wind Turbines, " doi
  19. (1992). Commercial Wind Power - Recent Experience in the United States, " Annual review of energy and the environment, doi
  20. (1990). Comparison of four different Permanent Magnet Rotor Constructions, "
  21. (1992). Control Systems Engineering. The Benjamin/ Cummings Publishing Comparry,
  22. (1986). Cost Accounting with managerial applications - 5th Ed.
  23. (1992). Cost Modelling of Horizontal Axis Wind Turbines, " tech. rep., Renewable Energy Centre,
  24. (1996). Damping power angle oscillations of a Permanent Magnet Generator with particular reference to Wind Turbine applications, " in IEE-Proceedings B, Electric Power Applications, doi
  25. (1993). Damping the rotor angle oscillations of a permanent magnet wind generator, " doi
  26. (1990). Dependence of performance of variable speed wind turbines on the turbulence, dynamics and control, " doi
  27. (1984). Design concepts and force generation in inverter fed synchronous machines with permanent magnet excitation, " doi
  28. (1995). Design interactions of a flexible mounting for a permanent magnet, synchronous generator, " doi
  29. (1994). Development of a direct drive generator for wind energy applications. " Final Report,
  30. (1992). Development of a direct drive generator for wind energy applications. " Intermediate Report,
  31. Developments in Wind Turbine Technolgy, "
  32. (1994). Direct Coupled Permanent Magnet Synchronous Generators.
  33. Direct Drive, Grid Connected, Modular Permanent-Magnet Generators, "
  34. (1994). Direct-Coupled, Permanent-Magnet Generators for Wind Turbine Applications, " doi
  35. (1981). Dynamic Behaviour of a class of Wind Turbine Generator during random Wind Fluctuations, " doi
  36. (1994). Dynamic characteristics of the drive-train: causes and effects, "
  37. (1993). Economic Aspects of Solar Technologies for Power Generation, "
  38. (1980). Electric Machines.
  39. (1989). Electronics: converters, applications and design.
  40. Embedded Generation, " doi
  41. (1989). Energy System Emissions and Material Requirements, " tech. rep., doi
  42. (1994). European Wind Turbine Catalogue, " tech. rep., Energy Centre,
  43. (2001). High quality mains power from variable speed wind turbins, "
  44. (1983). Horizontal Axis Wind Turbines. doi
  45. (1995). IGBT rectifier handbook.
  46. (1989). Interior type permanent magnet synchronous motor analysis by equivalent circuits, " doi
  47. (1993). Introduction to accounting for business - 5th Ed. Butterworths,
  48. (1991). Kassakian et al, Principles of Power Electronics.
  49. (1982). Layman's guide to the aerodynamics of wind turbines, "
  50. (1964). Matrix anlaysis of electrical machinery. doi
  51. (1982). Model for the Power Spectra of the Blade of a Wind Turbine Measured from the Moving Frame of Reference, " doi
  52. (1995). Modeling and control of variable speed wind turbine drive system dynamics, " doi
  53. (1995). Modelling a variable speed permanent magnet wind generator, "
  54. Modular design of permanent-Magnet generators for wind turbines, " doi
  55. News from Denmark, "
  56. (1994). North Wind 250, " tech. rep., Northern Power Systems,
  57. (1995). Overview of worldwide wind generation, " Windnet, doi
  58. (1973). Parameter Study of Wind Loading on Structures, "
  59. (1992). Permanent-Magnet Generators for Wind Power Applications, " doi
  60. (1984). Pitch Angle for Power Limitation, "
  61. (1992). Power Electronics - Second Edition.
  62. (1988). Power Electronics. doi
  63. (1957). Power spectrum of horizontal wind speeds in the frequency range from 0.0007 to 900 cycles per hour, " doi
  64. (1993). Present status and prospects for hydro-power generation in England and Wales, "
  65. (1993). Rathlin Island Wind/Diesel/Battery System, "
  66. (1979). Renewable Energy. doi
  67. Simulation of dynamic electromechanical behaviour of a compliant wind power system, "
  68. (1961). Spectrum of horizontal gustiness near the ground in high winds, " doi
  69. (1994). Stabilising of Slow Speed Permanent Magnet Synchronous Generators by means of Mechanical Damping, "
  70. (1983). Stability Simulation of Wind Turbine Systems, " doi
  71. (1995). Sunken Osprey gets a relacement, "
  72. (1977). Synchronous Machines - Theory and Stability.
  73. (1976). The Generation of Electricity by Wind Power. doi
  74. (1983). The Howden-300 Wind Turbine, "
  75. (1987). The spatial structure of turbulence in the atmospheric boundary layer, "
  76. The spectrum of wind speed fluctuations encountered by a rotating blade of a wind energy conversion system, " doi
  77. The visual impact and design of wind farms in the landscape, "
  78. (1992). The Wyre Barrage: The Pros and Cons,
  79. (2001). Tidal Stream Turbine Development, "
  80. (1988). Turbulence spectra, Lebght scales and structure parameters in the stable surface layer, " doi
  81. (1986). Unsteady Wake Effects caused by pitch-angle changes, " tech. rep.,
  82. (2001). Waste to energy in south east London, "
  83. (1995). Wave power plugs into the grid, "
  84. (1994). WEG turbines fail in storm, "
  85. (1995). What happens when the wind stops blowing, "
  86. (1983). Wind energy conversion-an introduction, " doi
  87. Wind energy economics, " doi
  88. (1992). Wind Energy Economics, " tech. rep.,
  89. (1991). Wind Energy in Europe. European Wind Energy Association, doi
  90. Wind Energy In the News, "
  91. (1992). Wind Turbine Control Systems Modelling and Design Phase I and II - Appendix D, "
  92. (1992). Wind Turbine Control Systems Modelling and Design Phase I and II, "
  93. Wind Turbulence Inputs for Horizontal Axis Wind Turbines, " doi
  94. (1994). WINDGEN2. " Software program,

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