基于LSTM的二阶杠杆原理单轴太阳跟踪器光伏功率预测

Q3 Environmental Science

Strategic Planning for Energy and the Environment Pub Date : 2023-01-31 DOI:10.13052/spee1048-5236.4226

Krishna Kumba, S. P. Simon, K. Sundareswaran, P. S. R. Nayak

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引用次数: 0

摘要

如今，太阳能发电在世界各地都有了显著的进步。因此，利用天气参数对光伏（PV）的功率进行估计，为未来电力系统规划中的能源利用管理提供了依据。本文介绍了二阶杠杆原理单轴太阳跟踪器（SOLPSAST）系统的功率预测。使用长短期记忆（LSTM）开发了一个深度神经网络，并在晴天、阴天和部分阴天进行了验证。与支持向量机（SVM）相比，所提出的LSTM的性能将晴天、阴天和部分阴天的平均绝对比例误差（MAPE）预测精度分别提高到4.29%、5.16%和4.82%。此外，LSTM模型在晴天、阴天和部分阴天的估计平均相对误差（MRE）值分别为3.19%、4.10%和4.02%。最后，SOLPSAST系统的月平均发电量和年发电量的预测发电量分别为2.45 Wh和29.44 kWh。

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LSTM Based Forecasting of PV Power for a Second Order Lever Principle Single Axis Solar Tracker

Nowadays solar power generation has significantly improved all over the world. Therefore, the power estimation of photovoltaic (PV) using weather parameters presents the future management of energy utilization in power system planning. This article presents the power forecast of the Second Order Lever Principle Single Axis Solar Tracker (SOLPSAST) system. A deep neural network is developed using Long Short Term Memory (LSTM) and is validated on sunny, cloudy and partially cloudy days. The performance of the proposed LSTM in comparison with Support Vector Machine (SVM) has improved the Mean Absolute Proportion Error (MAPE) forecasts accuracy to 4.29%, 5.16%, and 4.82% for sunny, cloudy and partially cloudy days, respectively. Also, the estimated Mean Relative Error (MRE) value of the LSTM model for sunny, cloudy and partially cloudy days is 3.19%, 4.10%, and 4.02%, respectively. Finally, the forecasted power generation of the SOLPSAST system’s monthly average and annual generation is found to be 2.45 Wh, and 29.44 kWh, respectively.

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来源期刊

Strategic Planning for Energy and the Environment Environmental Science-Environmental Science (all)

CiteScore

1.50

自引率

0.00%

发文量