Back
 JPEE  Vol.2 No.4 , April 2014
Time-Series Characteristics of Wind Power and Its Impact on Jilin Power Grid
Abstract: With the rapid development of wind power, the large-scale wind power integration brings a new range of issues in dispatching operation. In order to gain a better grasp of the influence caused by wind power combined to the grid, the paper first establishes the impact characteristic indexes, and then analyzes the regularity of wind power time series in different spatial and temporal scales. At last, according to the analysis results, this paper assesses the impact of time-series characteristics of wind power on power grid, such as the frequency regulation, peak load regulation, which can provide the reference for wind power optimal dispatching of Jilin Power Grid.
Cite this paper: Xu, Y. , Sun, Y. , Zheng, T. , Cai, H. , Li, P. and Ma, S. (2014) Time-Series Characteristics of Wind Power and Its Impact on Jilin Power Grid. Journal of Power and Energy Engineering, 2, 203-212. doi: 10.4236/jpee.2014.24029.
References

[1]   Wang, L.J., Liao, X.Z., Gao, Y., et al. (2009) Summarization of Modeling and Prediction of Wind Power Generation. Power System Protection and Control, 37, 118-121.

[2]   Tian, C.Z., Li, Q.L. and Song, X.K. (2009) Modeling and Analysis of the Stability for the Power System Considering the Integration of the Wind Farms. Power System Protection and Control, 37, 46-51.

[3]   Lu, Z.X.and Min, Y. (2012) Multiple Time and Spatial Scale Dispatching Techniques of Volatile Energy Generation Based on Power Prediction. Journal of Electric Power Science and Technology, 27, 28-33.

[4]   Xiao, C.Y., Wang, N.B., Zhi, J., et al. (2010) Power Characteristics of Jiuquan Wind Power Base. Automation of Electric Power Systems, 34, 64-67.

[5]   Yang, Z.L., Zhu, Z.L., Li, R.Y., et al. (2010) Analysis on Output Power Characteristics of Jiangsu Coastal Typical Wind Farm. East China Electric Power, 38, 37-40.

[6]   Gao, D.B., Li, Q., Jin, Y., Yu, J. and Zhang, J.N. (2010) Analysis and Research of Operational Characteristics of Wind Power Generation in Northeast Power Grid. Electric Power Technology, 19, 33-37.

[7]   Li, J.N., Qiao, Y., Lu, Z.X., Li, J. and Xu, F. (2010) Research on Statistical Modeling of Large-Scale Wind Farms Output Fluctuations in Different Special and Temporal Scales. Power System Protection and Control, 40, 7-13.

[8]   Hou, Y.H., Fang, D.Z., Qi, J., et al. (2010) Analysis on Active Power Fluctuation Characteristics of Large-Scale Grid-Connected Wind Farm and Generation Scheduling Simulation under Different Capacity Power Injected From Wind Farms into Power Grid. Power System Technology, 40, 7-13.

[9]   Kang, C.Q., Xia, Q.and Xu, W. (2011) Uncertainty Analysis in Power Systems. Sciences Press, Beijing.

[10]   Hannele, H. (2004) The Impact of Large Scale Wind Farms Integration in Nordic Countries. Ph.D. Thesis, Helsinki University.

[11]   Wang, Z., Wang, W.S., Liu, C. and Feng, S.L. (2013) Uncertainty Estimation of Wind Power Prediction Result Based on Wind Process Method. Power System Technology, 37, 242-247.

[12]   Wang, Z. (2012) Uncertainty Estimation of Wind Power Forecasting Result Based on Wind Process and Non-Parametric Regression. Master’s Thesis, CEPRI, Beijing.

 
 
Top