DocumentCode :
1610672
Title :
Dynamic performance improvement of wind power integrated grid using TCP/IP communication network
Author :
Gajrani, Kiran ; Bhargava, Anshuman ; Sharma, K.G. ; Bansal, Rajeev
Author_Institution :
Dept. of Electr. Eng., Rajasthan Tech. Univ., Kota, India
fYear :
2013
Firstpage :
405
Lastpage :
410
Abstract :
The increasing penetration of wind power makes the power system more and more complicated, deregulated, and distributed. Thus, the time critical protection needs to be implemented in proper coordination. This requires real time monitoring and controlling of highly non linear modern electric grid, which can be achieved through Wide Area Measurement System (WAMS). Successful implementation of WAMS requires incorporation of fast and reliable modern communication technologies in the power system. In this paper, the system´s dynamic performance is examined with the incorporation of communication technologies. The active power system with 9 MW wind farm is used for the study. WAMS and wind farm communication are based on IEEE standard C37.118.2 and IEC 61400-25 respectively. The different fault scenarios have been simulated and performance is analyzed with the incorporation of communication technologies. The power system has been simulated in MATLAB while communication based simulations have been performed in OPNET. Simulation results clearly show that the incorporation of communication network can avoid wind farm tripping even in severe fault conditions.
Keywords :
IEC standards; IEEE standards; IP networks; power engineering computing; power generation faults; power grids; power system measurement; transport protocols; wind power plants; IEC 61400-25; IEEE standard C37.118.2; TCP-IP communication network; WAMS; active power system; dynamic performance improvement; nonlinear modern electric grid; wide area measurement system; wind farm communication; wind farm tripping; wind power integrated grid; Circuit faults; Communication networks; Phasor measurement units; Power system dynamics; Power system stability; Protocols; Wind farms; DFIG wind turbine; Wide area measurement system; communication network; dynamic behavior; latency;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Clean Energy and Technology (CEAT), 2013 IEEE Conference on
Conference_Location :
Lankgkawi
Print_ISBN :
978-1-4799-3237-5
Type :
conf
DOI :
10.1109/CEAT.2013.6775665
Filename :
6775665
Link To Document :
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