【作者】 宁美凤；

【导师】 陈铁军；

【作者基本信息】 郑州大学 ， 控制理论与控制工程， 2012， 硕士

【摘要】 具有分布广、蕴藏量大的风能,作为一种清洁环保的可再生能源越来越受到重视。在大力发展风力发电的同时,风电入网对电能质量、电力系统安全运行以及电力供需平衡也带来了挑战。如何降低风电入网给电力系统带来的影响、以及提高风力发电的竞争力,是发展风电技术一个急需解决的难题。对风电功率进行短期预测,其精确的预测结果能够指导电力调度部门及时调整调度计划、减少备用容量、降低运行成本,是促进风电技术发展有效途径之一。本文主要是对风速及风电功率短期预测技术进行了研究,利用风速混沌特性进行风速短期预测,然后在风电功率曲线的基础上完成对风电功率的预测。对风速时间序列的属性进行正确的分析,将有利于科学合理的建立风速短期预测模型。先对风速时间序列进行相空间重构,通过改进C-C法与原C-C法相比,利用改进C-C方法的高可靠性、计算速度快并且能同时估算出嵌入维数和延迟时间的特点估算出风速时间序列的重构参数。分别计算出风速时间序列的关联维数和最大Lyapunov指数,验证风速时间序列的混沌特性,将混沌相空间重构引入到风速预测中,为风速短期预测奠定了理论基础。利用加权零阶局域法与加权一阶局域法两种常用传统的混沌时间序列预测方法对风速进行短期预测,预测结果表明了利用混沌时间序列预测方法对风速进行预测的可行性。着重介绍了一种具有高精度混沌时间序列预测的新型递归神经网络——回声状态网络,对其网络的建立过程、基于混沌时间序列的迭代预测和直接预测进行了详细的分析,将风速混沌时间序列和回声状态网络相结合,建立了风速单步预测和提前8小时的风速短期预测模型,MATLAB的仿真结果表明了该预测方法的有效性,与传统混沌时间序列预测方法相比,提高了预测精度。在标准风电功率曲线的基础上,通过风速短期预测值得到了风电功率的预测值,仿真结果表明由于标准的风电功率曲线不完全符合实际风速与风电功率的关系,使得风电功率预测误差大于风速的预测误差,但预测精度还算令人满意。本文所提出的预测方法为风电功率预测技术开辟了一个新的空间。更多还原

【Abstract】 With wide distribution and large reservation, wind as a environmentally friendly renewable energy is received more and more attention. In the development of wind power, the wind power grid is also brought challenge to power quality, the safe operation of the power system and power supply and demand balance. How to reduce the impact of wind power network to the power system, as well as enhance the competitiveness of wind power generation is a difficult problem of developing wind power technology, which is in need of solution. The power dispatching department can be guided by the accurate predictions of short-term wind power prediction to timely adjust scheduling plan, so as to reduce the reserve capacity and operation costs, which is an effective way to promote the development of wind power technology.In this paper, wind speed and wind power short-term prediction technology is studied, through the short-term forecast for wind speed, the wind power forecast is completed based on the wind power curve. Correct analysis of wind speed time series properties will be beneficial to build the short-term prediction model scientifically and rationally. First, phase space reconstruction of wind speed time series is taken. By comparing of the original C-C method, the improved C-C method has the characteristics of high reliability, fast calculation and can also estimate the embedding dimension and delay time at the same time, so it is chose to estimate the parameters of the reconstruction of wind speed time series. Then, the chaotic characteristics of wind speed time series is verified by the correlation dimension and maximum Lyapunov index, so chaotic phase space reconstruction can be introduced to the wind speed prediction and laid the foundation for the prediction. And two commonly used traditional chaotic time series prediction method, the weighted zero-order local low and the weighted one-order local law is used to predict the short-term wind speed. The prediction results show that using chaotic time series prediction method to predict the short-term wind speed is feasibility. Finally, a new type of recurrent neural networks—echo state network which has high precision of chaotic time series prediction is introduced, and the process of establish the network, chaotic time series based iterative prediction and direct prediction are analyzed in detail. Combining the wind speed chaotic time series and the echo state network, the forecasting model of single-step wind speed prediction and eight hours ahead wind speed short-term prediction are established, and the MATLAB simulation results show that the prediction method is valid. Compared to the traditional chaotic time series prediction method, the prediction accuracy is improved. On the basis of standard wind power curve, the prediction values of wind power are obtained by the prediction values of wind speed. The simulation results indicate that the standard power curve is not fully comply with the actual relationship between wind speed and wind power, so as to make wind power prediction error is greater than the wind speed prediction error, but the prediction accuracy is still satisfactory. The proposed prediction method has opened a new space for wind power prediction technology.更多还原