Forecasting of wind turbine synthetic signals based on convolutional

Q4 Energy
C. Blanco, J. Sierra-García, M. Santos
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引用次数: 0

Abstract

The importance and future prospects of offshore wind power generation invite great efforts and investments to make it an efficient technology. A crucial aspect is the development of efficient control strategies, which in many cases require models to identify the state of the turbine at a given time accurately. These models must be simple enough not to increase the computational complexity of the control algorithm while being able to capture the nonlinearity and coupling of wind systems. In this work we study the possibility of using neural networks to identify a wind turbine model to predict its power output. Two models, with different number of inputs, have been proposed. LSTM (Long-Short Term Memory) and RNN (Recurrent Neural Network) have been compared, with satisfactory results in terms of model accuracy on an offshore 5MW WT.
基于卷积的风力机综合信号预测
海上风力发电的重要性和未来前景需要巨大的努力和投资,使其成为一种高效的技术。一个关键的方面是开发有效的控制策略,在许多情况下,这需要模型在给定时间准确地识别涡轮机的状态。这些模型必须足够简单,不增加控制算法的计算复杂性,同时能够捕捉风系统的非线性和耦合。在这项工作中,我们研究了使用神经网络来识别风力涡轮机模型以预测其功率输出的可能性。提出了两种不同输入数的模型。对LSTM(长短期记忆)和RNN(循环神经网络)进行了比较,在海上5MW WT的模型精度方面取得了令人满意的结果。
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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