Title :
Use of turbine inertia for power smoothing of wind turbines with a DFIG
Author :
Ran, Li ; Bumby, J.R. ; Tavner, Peter J.
Author_Institution :
Sch. of Eng., Durham Univ., UK
Abstract :
Fluctuating power is of serious concern in grid connected wind systems and energy storage systems are being developed to help alleviate this. This paper describes how additional energy storage can be provided within the existing wind turbine system by allowing the turbine speed to vary over a wider range. It also addresses the stability issue due to the modified control requirements. A control algorithm is proposed for a typical doubly fed induction generator (DFIG) arrangement and a simulation model is used to assess the ability of the method to smooth the output power. The disadvantage of the method is that there is a reduction in energy capture relative to a maximum power tracking algorithm. This aspect is evaluated using a typical turbine characteristic and wind profile and is shown to decrease by less than 1%. In contrast power fluctuations at intermediate frequency are reduced by typically 90%.
Keywords :
asynchronous generators; energy storage; machine control; power generation control; power supply quality; power system stability; wind power plants; wind turbines; DFIG; control algorithm; doubly fed induction generator; energy capture relative reduction; energy storage systems; fluctuating power; grid connected wind systems; maximum power tracking algorithm; moment of inertia; power quality; power smoothing; simulation model; stability issues; tracking control; turbine inertia; turbine speed; wind power generation; wind profile; wind turbines; Energy capture; Energy storage; Fluctuations; Induction generators; Power generation; Power smoothing; Power system modeling; Stability; Wind energy; Wind turbines;
Conference_Titel :
Harmonics and Quality of Power, 2004. 11th International Conference on
Print_ISBN :
0-7803-8746-5
DOI :
10.1109/ICHQP.2004.1409337
