Direct Torque Control and Direct Power Control with Multilevel Converters for Variable Speed Wind Turbines
2016 Eighteenth International Middle East Power Systems Conference (MEPCON) • 2016
معلومات البحث
المؤلفون
Ahmed Abd Elsattar;Ahmed M. Atallah
الكلمات المفتاحية
Direct Torque Control; Direct Power Control ;
Multilevel Converter ; Variable Speed Wind Turbines ;
Machine Side Converter.
المجلة العلمية
2016 Eighteenth International Middle East Power Systems Conference (MEPCON)
الناشر
IEEE
المجلد
Not Available
العدد
Not Available
الصفحات
480 - 489
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
This paper presents WECS (wind energy conversion
system) installed with BTB (back-to-back) medium voltage
diode clamped five-level converter and SCIG (Squirrel-Cage-
Induction-Generator) for a large capacity wind turbine (5MW).
The DTC (direct torque control) has been used for the machine
side diode clamped five-level converter. The use of DTC with the
MLC (multilevel converter) gives a better performance of SCIG
(flux, torque, current and speed) to improve the energy
efficiency of a variable speed WECS. Utility-grid side diode
clamped five-level converter uses the DPC (direct power control)
technique. This technique is used to improve the performance of
the delivered power flowing from the dc-link to the electric
utility-grid (decrease ripples of the DC-link voltage, decrease
THD (total-harmonic-distortion) and improve the power factor
of the injected power to the utility-grid). The proposed system
simulation is done using Matlab/SimulinkSimscape Power
Systems to compare this system and the classical two-level
converter.
system) installed with BTB (back-to-back) medium voltage
diode clamped five-level converter and SCIG (Squirrel-Cage-
Induction-Generator) for a large capacity wind turbine (5MW).
The DTC (direct torque control) has been used for the machine
side diode clamped five-level converter. The use of DTC with the
MLC (multilevel converter) gives a better performance of SCIG
(flux, torque, current and speed) to improve the energy
efficiency of a variable speed WECS. Utility-grid side diode
clamped five-level converter uses the DPC (direct power control)
technique. This technique is used to improve the performance of
the delivered power flowing from the dc-link to the electric
utility-grid (decrease ripples of the DC-link voltage, decrease
THD (total-harmonic-distortion) and improve the power factor
of the injected power to the utility-grid). The proposed system
simulation is done using Matlab/SimulinkSimscape Power
Systems to compare this system and the classical two-level
converter.
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