IV. SIMULATION RESULT

1. IV. SIMULATION RESULT System description Wind power Figure 9- System model with D-STATCOM

2. IV. SIMULATION RESULT At POC: V Without STATCOM With STATCOM Wind power Figure 11- Simulation result of V

3. IV. SIMULATION RESULT SCIG Without STATCOM With STATCOM Wind power

4. V. CONCLUSIONS • Power systems require taking into account the reactive power of the wind farm in order to contribute to the network stability, thus operating the wind farm as active compensator devices. The impact of SCIG wind farm connecting into a distribution network is completely studied in this paper. • when STATCOM is installed at wind farm, with STATCOM technology to have the capability to increase stability and improve system dynamic response following disturbances. Application of STATCOMs for wind farm is to increase power quality, regulate reactive power at the grid POC and reduce voltage flicker. Wind power Previous Next Home

5. V. CONCLUSIONS Future works Application of STATCOMs for wind farm use DFIG turbines and for large-scale wind farm connect into the grid to increase power quality, wind power systems stability, reduce reactive power, reduce voltage flicker and suitably manage the available capacity on the sources of reactive power. Wind power Previous Next Home

6. REFERENCES [1] Matlab Simulink toolbox of the \SimPowerSystems\Distributed Resources Library\Wind Generation\, the Help file of the model of wind farm (IG), wind farm DFIG (Detailed type, Average type). [2] “Wind Power in Power system”, The book edited by Thomas Ackermann, Royal Institute of Technology Stockholm, Sweden, in 2005. [3] “Impacts of Wind Farms on Power System Stability”, chapter 7, edited by Ahmed G. Abo-Khalil, http://dx.doi.org/10.5772/55090 [4] Yvonne Coughlan, Paul Smith, Alan Mullane, Mark O’Malley, Membe IEEE, ” Wind Turbine Modelling for Power System Stability Analysis—A System Operator Perspective”, IEEE Transaction on Power Systems, Vol. 22, NO. 3, August 2007. [5] Mazen Abdel-Salam, Adel Ahmed, Mahmoud Mahrous, ” Transient analysis of grid-connected wind-driven PMSG, DFIG and SCIG at fixed and variable speeds”, Electric Engineering Department, Assiut University, Assiut, Egypt, Innovative Systems Design and Engineering, ISSN 2222-1727 (Paper) ISSN 2222-2871 (Online), Vol 2, No 3. www.iiste.org [6] Francisco D__azGonz_alez, Marcela Mart__nez-Rojas, Andreas Sumper, OriolGomis-Bellmunt, Llu__s Trilla, “Strategies for Reactive Power Control in Wind Farms with STATCOM”. [7] Fei Ye, Xueliang Huang, Chaoming Wang, Gan Zhou, Ping Luo, “The Impact and Simulation on Large Wind Farm Connected to Power System”, DRPT2008 6-9 April 2008 Nanjing China. [8] Mohammad Ali Tofigh, NasrudinAbd Rahim , R. VignaKumaran, IEEE Member “Voltage Regulation of Grid Connected Wind Farm Using STATCOM”, Department of Electrical Engineering University of Malaya Kuala Lumpur, Malaysia. [9] Li Wang, Senior Member, IEEE, and Chia-TienHsiung, “Dynamic Stability Improvement of an Integrated Grid-Connected Offshore Wind Farm and Marine-Current Farm Using a STATCOM”, IEEE Transactions on Power Systems,Vol. 26, NO. 2, MAY 2011. [10] SverreSkallebergGjerde and Tore M. Undeland, “ STATCOM and Energy Storage in Grid Integration of Wind Farms” fellow, IEEE. [11] Chong Han, Alex Q. Huang, MesutBaran, Subhashish Bhattacharya, Wayne Litzenberger, Loren Anderson, Anders Johnson, Abdel-AtyEdris, “STATCOM Impact Study on the Integration of a Large Wind Farm into a Weak Loop Power System”, SPEC, NC State Univ., Raleigh, USA. [12] Ching-Yin Lee, Li-Chieh Chen, Shao-Hong Tsai, Wen-Tsan Liu, Yuan-Kang Wu, “The Impact of SCIG Wind Farm Connecting into a Distribution System”, Department of Electrical Engineering, National Taipei University of Technology, Taipei, Taiwan Wind power

7. THANKS FOR YOUR ATTENTION! Wind power