Hourly predictions of direct normal irradiation using an innovative hybrid LSTM model for concentrating solar power projects in hyper-arid regions

Abdallah Djaafari; Abdelhameed Ibrahim; Nadjem Bailek; Kada Bouchouicha; Muhammed A. Hassan; Alban Kuriqi; Nadhir Al-Ansari; El-Sayed M. El-kenawy

Energy Reports (Nov 2022)

Hourly predictions of direct normal irradiation using an innovative hybrid LSTM model for concentrating solar power projects in hyper-arid regions

Abdallah Djaafari,
Abdelhameed Ibrahim,
Nadjem Bailek,
Kada Bouchouicha,
Muhammed A. Hassan,
Alban Kuriqi,
Nadhir Al-Ansari,
El-Sayed M. El-kenawy

Affiliations

Abdallah Djaafari: Laboratoire de Développement des Energies Nouvelles et Renouvelables dans les Zones Arides et Sahariennes, Faculté des Mathématiques et des Sciences de la Matière, Université Kasdi Merbah Ouargla, Ouargla, 30000, Algeria; Energies and Materials Research Laboratory, Faculty of Sciences and Technology, University of Tamanghasset, Algeria
Abdelhameed Ibrahim: Computer Engineering and Control Systems Department, Faculty of Engineering, Mansoura University, Mansoura, Egypt
Nadjem Bailek: Energies and Materials Research Laboratory, Faculty of Sciences and Technology, University of Tamanghasset, Algeria; Sustainable Development and Computer Science Laboratory, Faculty of Sciences and Technology, Ahmed Draia University of Adrar, Adrar, Algeria; Engineering and Architectures Faculty, Nisantasi University, Istanbul, Turkey; Corresponding author.
Kada Bouchouicha: Centre de Développement des Energies Renouvelables, CDER, BP 62 Route de l’Observatoire, Bouzaréah 16340, Algiers, Algeria
Muhammed A. Hassan: Mechanical Power Engineering Department, Faculty of Engineering, Cairo University, Giza, 12613, Giza, Egypt
Alban Kuriqi: CERIS, Instituto Superior Tecnico, Universidade de Lisboa, Lisbon, Portugal; Civil Engineering Department, University for Business and Technology, 10000 Pristina, Kosovo
Nadhir Al-Ansari: Department of Civil, Environmental and Natural Resources Engineering, Lulea University of Technology, 97187, Lulea, Sweden
El-Sayed M. El-kenawy: Department of Communications and Electronics, Delta Higher Institute of Engineering and Technology, Mansoura 35111, Egypt

Journal volume & issue: Vol. 8
pp. 15548 – 15562

Abstract

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Although solar energy harnessing capacity varies considerably based on the employed solar energy technology and the meteorological conditions, accurate direct normal irradiation (DNI) prediction remains crucial for better planning and management of concentrating solar power systems. This work develops hybrid Long Short-Term Memory (LSTM) models for assessing hourly DNI using meteorological datasets that include relative humidity, air temperature, and global solar irradiation. The study proposes a unique hybrid model, combining a balance-dynamic sine–cosine (BDSCA) algorithm with an LSTM predictor. Combining optimizers and predictors, such hybrid models are rarely developed to estimate DNI, especially in smaller prediction intervals. Therefore, various commonly adopted algorithms in relevant studies have been considered references for evaluating the new hybrid algorithm. The results show that the relative errors of the proposed models do not exceed 2.07%, with a minimum correlation coefficient of 0.99. In addition, the dimensionality of inputs was reduced from four variables to the two most cost-effective variables in DNI prediction. Therefore, these suggested models are reliable for estimating DNI in the arid desert areas of Algeria and other locations with similar climatic features.

Published in Energy Reports

ISSN: 2352-4847 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: http://www.journals.elsevier.com/energy-reports/

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