基于数据分解和深度学习模型的风速预测——以沙特阿拉伯某风电场为例

IF 1 Q4 ENERGY & FUELS

International Journal of Renewable Energy Research Pub Date : 2023-01-01 DOI:10.20508/ijrer.v13i3.14088.g8800

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引用次数: 0

摘要

随着工业技术的发展和人们对电力需求的不断增加，风能逐渐成为发展最快、最环保的新能源。然而，由于风速的不稳定性，风力发电始终伴随着不确定性。风速预报对电网的调度、稳定和可控性至关重要，其准确性对风电资源的有效利用至关重要。因此，本研究提出了一种基于混合分解方法和双向长短期记忆(BiLSTM)的平稳数据WSF框架，以实现沙特阿拉伯Al-Jouf的Dumat Al-Jandal风电场的高预测精度。混合分解方法结合了小波包分解(WPD)和季节调整法(SAM)。SAM方法消除了WPD生成的分解子序列的季节分量，降低了预测复杂度。应用BiLSTM对所有反季节性分解子序列进行预测。从Al-Jouf地区一个地点获得的5年每小时风速观测资料被用来证明所提出模式的有效性。与其他27个模型的对比实验结果表明，所提出的模型在单WSF和多WSF上均具有优势，总体平均绝对误差为0.176549，均方根误差为0.247069,r平方误差为0.985987。

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Wind Speed Forecasting Based on Data Decomposition and Deep Learning Models: A Case Study of a Wind Farm in Saudi Arabia

With industrial and technological development and the increasing demand for electric power, wind energy has gradually become the fastest-growing and most environmentally friendly new energy source. Nevertheless, wind power generation is always accompanied by uncertainty due to the wind speed's volatility. Wind speed forecasting (WSF) is essential for power grids' dispatch, stability, and controllability, and its accuracy is crucial to effectively using wind resources. Therefore, this study proposes a novel WSF framework for stationary data based on a hybrid decomposition method and the Bidirectional Long Short-term Memory (BiLSTM) to achieve high forecasting accuracy for the Dumat Al-Jandal wind farm in Al-Jouf, Saudi Arabia. The hybrid decomposition method combines the Wavelet Packet Decomposition (WPD) and the Seasonal Adjustment Method (SAM). The SAM method eliminates the seasonal component of the decomposed subseries generated by WPD to reduce forecasting complexity. The BiLSTM is applied to forecast all the deseasonalized decomposed subseries. Five years of hourly wind speed observations acquired from a location in the Al-Jouf region were used to prove the effectiveness of the proposed model. The comparative experimental results, including 27 other models, demonstrated the proposed model's superiority in single and multiple WSF with an overall average mean absolute error of 0.176549, root mean square error of 0.247069, and R-squared error of 0.985987.

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来源期刊

International Journal of Renewable Energy Research Energy-Energy Engineering and Power Technology

CiteScore

2.80

自引率

10.00%

发文量

期刊介绍： The International Journal of Renewable Energy Research (IJRER) is not a for profit organisation. IJRER is a quarterly published, open source journal and operates an online submission with the peer review system allowing authors to submit articles online and track their progress via its web interface. IJRER seeks to promote and disseminate knowledge of the various topics and technologies of renewable (green) energy resources. The journal aims to present to the international community important results of work in the fields of renewable energy research, development, application or design. The journal also aims to help researchers, scientists, manufacturers, institutions, world agencies, societies, etc. to keep up with new developments in theory and applications and to provide alternative energy solutions to current issues such as the greenhouse effect, sustainable and clean energy issues.