Day-Ahead Probabilistic Load Flow Analysis Considering Wind Power Forecast Error Correlation

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DOI: 10.4236/epe.2017.94B034    2,712 Downloads   3,582 Views  Citations

ABSTRACT

Short-term power flow analysis has a significant influence on day-ahead generation schedule. This paper proposes a time series model and prediction error distribution model of wind power output. With the consideration of wind speed and wind power output forecast error’s correlation, the probabilistic distributions of transmission line flows during tomorrow’s 96 time intervals are obtained using cumulants combined Gram-Charlier expansion method. The probability density function and cumulative distribution function of transmission lines on each time interval could provide scheduling planners with more accurate and comprehensive information. Simulation in IEEE 39-bus system demonstrates effectiveness of the proposed model and algorithm.

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Ding, Q. , Zhang, C. , Zhou, J. , Dai, S. , Xu, D. , Luo, Z. and Zhai, C. (2017) Day-Ahead Probabilistic Load Flow Analysis Considering Wind Power Forecast Error Correlation. Energy and Power Engineering, 9, 292-299. doi: 10.4236/epe.2017.94B034.
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