Fuzzy Based Grid Voltage Stabilization in A Wind Farm Using Static VAR Compensator

被引:3
|
作者
Vanitha, V. [1 ]
Shreyas, S. [1 ]
Vasanth, V. [1 ]
机构
[1] Amrita Sch Engn, Dept Elect & Elect Engn, Coimbatore, Tamil Nadu, India
来源
2009 INTERNATIONAL CONFERENCE ON ADVANCES IN RECENT TECHNOLOGIES IN COMMUNICATION AND COMPUTING (ARTCOM 2009) | 2009年
关键词
wind electric generator; voltage at the point of common coupling; thyristor controlled reactor; fixed capacitor; fuzzy controller; reactive power;
D O I
10.1109/ARTCom.2009.166
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
When a squirrel cage induction type wind electric generator (WEG) is connected to power grid, due to variations in load and wind speed, there will be fluctuations in the grid voltage. In this paper, the effect of load and wind speed variations on real power supplied and reactive power consumed by the WEG as well as voltage on the grid are studied. The voltage variation in the grid is controlled by reactive power compensation using shunt connected Static VAR Compensator (SVC) comprising Thyristor Controlled Reactor (TCR) and Fixed Capacitor (FC). The TCR is operated automatically by a Fuzzy Logic Controller (FLC). The complete system is modeled using MATLAB SIMULINK. Results show an appreciable improvement in the grid voltage by compensating the reactive power.
引用
收藏
页码:14 / 18
页数:5
相关论文
共 50 条
  • [41] Control Quality Assessment of Fuzzy Logic Controller Based Static VAR Compensator (SVC)
    Hemeida, Ashraf Mohamed
    Alkhalaf, Salem
    Alfarraj, Osama
    2015 SAI INTELLIGENT SYSTEMS CONFERENCE (INTELLISYS), 2015, : 507 - 517
  • [42] Wind farm stabilization by using DFIG with current controlled voltage source converters taking grid codes into consideration
    Okedu, Kenneth Eloghene
    Muyeen, S.M.
    Takahashi, Rion
    Tamura, Junji
    IEEJ Transactions on Power and Energy, 2012, 132 (03) : 251 - 259
  • [43] Voltage stability index based optimal placement of Static VAR Compensator and sizing using Cuckoo Search Algorithm
    Rao, B. Venkateswara
    Kumar, G. V. Nagesh
    Chowdary, D. Deepak
    Bharathi, M. Aruna
    Patra, Stutee
    INTERNATIONAL CONFERENCE ON FUNCTIONAL MATERIALS, CHARACTERIZATION, SOLID STATE PHYSICS, POWER, THERMAL AND COMBUSTION ENERGY (FCSPTC-2017), 2017, 1859
  • [44] A Static Var Compensator Controlled Topology For a Grid Connected Photovoltaic System
    Akermi, Salwa
    Hidouri, Noureddine
    Sbita, Lassaad
    2014 5TH INTERNATIONAL RENEWABLE ENERGY CONGRESS (IREC), 2014,
  • [45] Power stability improvement of power utility grid using a new Advanced Static Var Compensator
    Tahri, A
    Draou, A
    Benghanem, M
    INTELEC 2001: TWENTY-THIRD INTERNATIONAL TELECOMMUNICATIONS ENERGY CONFERENCE, 2001, (484): : 412 - 415
  • [46] Shuffled frog leaping algorithm-based static synchronous compensator for transient stability improvement of a grid-connected wind farm
    Hasanien, Hany M.
    IET RENEWABLE POWER GENERATION, 2014, 8 (06) : 722 - 730
  • [47] Application of a static VAR compensator to an autonomous wind-diesel system
    Tomilson, A.
    Quaicoe, J.
    Gosine, R.
    Hinchey, M.
    Bose, N.
    Wind Engineering, 1998, 22 (03) : 131 - 142
  • [48] Optimal Location of Static Var Compensator to Regulate Voltage in Power System
    Zaidan, Majeed Rashid
    Toos, Saber Izadpanah
    IETE JOURNAL OF RESEARCH, 2023, 69 (04) : 2177 - 2185
  • [49] Experimental investigation of voltage sag mitigation by an advanced static var compensator
    Wang, P
    Jenkins, N
    Bollen, MHJ
    IEEE TRANSACTIONS ON POWER DELIVERY, 1998, 13 (04) : 1461 - 1467
  • [50] Wind Farm Optimal Grid Integration based on Voltage Stability Assessment
    Toma, Radu
    Gavrilas, Mihai
    2019 11TH INTERNATIONAL SYMPOSIUM ON ADVANCED TOPICS IN ELECTRICAL ENGINEERING (ATEE), 2019,
12345