Publication Type

Journal Article

Publication Date (Issue Year)

2024

Journal Name

Advances in Science, Technology and Engineering Systems Journal

Abstract

Forecasting solar PV power output holds significant importance in the realm of energy management, particularly due to the intermittent nature of solar irradiation. Currently, most forecasting studies employ statistical methods. However, deep learning models have the potential for better forecasting. This study utilises Long Short-Term Memory (LSTM), Gate Recurrent Unit (GRU) and hybrid LSTM-GRU deep learning techniques to analyse, train, validate, and test data from the Zagtouli Solar Photovoltaic (PV) plant located in Ouagadougou (longitude:12.30702 o and latitude:1.63548 o), Burkina Faso. The study involved three evaluation metrics: Root Mean Square Error (RMSE), Mean Absolute Error (MAE), and coefficient of determination (R2). The RMSE evaluation criteria gave 10.799(LSTM), 11.695(GRU) and 10.629(LSTM-GRU) giving the LSTM-GRU model as the best for RMSE evaluation. The MAE evaluation provided 2.09, 2.1 and 2.0 for the LSTM, GRU and LSTM-GRU models respectively, showing that the LSTM-GRU model is superior for MAE evaluation. The R2 criteria similarly showed the LSTM-GRU model to be best with 0.999 compared to 0.998 for LSTM and 0.997 for GRU. It becomes evident that the hybrid LSTM-GRU model exhibits superior predictive capabilities compared to the other two models. These results indicate that the hybrid LSTM-GRU model has the potential to reliably predict the solar PV power output. It is therefore recommended that the authorities in charge of the solar PV Plant in Ouagadougou should consider switching to the deep learning LSTM- GRU model

Keywords

Deep learning, LSTM, GRU, Solar PV Power, Zagtouli

Rsif Scholar Name

Sami Florent Palm

Rsif Scholar Nationality

Burkina Faso

Cohort

Cohort 2

Thematic Area

Energy including Renewables

Africa Host University (AHU)

University of Nairobi (UoN), Kenya

Funding Statement

The authors extend their gratitude to the University of Nairobi and Mohammed VI Polytechnic University for their valuable support, as well as to SONABEL for assisting in data collection at the Zagtouli PV Plant site. A special acknowledgement is also due to PASET RSIF for their financial contributions to this research endeavour.

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