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Simulation of a Wind Powered Wound Rotor Induction Generator with Slip Power Recovery for Battery Charging

Simulation of a Wind Powered Wound Rotor Induction Generator with Slip Power Recovery for Battery... Blade-tip-speed ratio feedback control is applied to a wind turbine driven, grid connected, three phase, induction generator whose wound rotor winding is connected to a rectifier via slip rings. Power from the rotor winding flows through the rectifier to a switch-mode, step-up, DC to DC converter to re-charge a bank of batteries. The switch in the DC to DC converter has a variable duty cycle, and this design feature is used in a feedback control loop. A dynamic model of the complete system is presented along with simulation results. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Wind Engineering SAGE

Simulation of a Wind Powered Wound Rotor Induction Generator with Slip Power Recovery for Battery Charging

Wind Engineering , Volume 25 (2): 24 – Mar 1, 2001

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References (5)

Publisher
SAGE
Copyright
© 2001 SAGE Publications
ISSN
0309-524X
eISSN
2048-402X
DOI
10.1260/0309524011495890
Publisher site
See Article on Publisher Site

Abstract

Blade-tip-speed ratio feedback control is applied to a wind turbine driven, grid connected, three phase, induction generator whose wound rotor winding is connected to a rectifier via slip rings. Power from the rotor winding flows through the rectifier to a switch-mode, step-up, DC to DC converter to re-charge a bank of batteries. The switch in the DC to DC converter has a variable duty cycle, and this design feature is used in a feedback control loop. A dynamic model of the complete system is presented along with simulation results.

Journal

Wind EngineeringSAGE

Published: Mar 1, 2001

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