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Deep learning-enabled integration of renewable energy sources through photovoltaics in buildings

Abstract

Installing photovoltaic (PV) systems in buildings is one of the most effective strategies for achieving sustainable energy goals and reducing carbon emissions. However, the requirement for efficient energy management, the fluctuating energy demands, and the intermittent nature of solar power are a few of the obstacles to the seamless integration of PV systems into buildings. These complexities surpass the capabilities of rule-based systems, necessitating innovative solutions. The research proposes a deep learning-based optimal energy management system designed specifically for home micro-grids that incorporate PV systems with battery energy storage, Enhanced Long Short-Term Memory (LSTM)-Based Optimal Home Micro-Grid Energy Management (OHM-GEM). Integrating an improved type of LSTM neural network called LSTM into the energy management system improves the reliability of PV power output predictions. The dependability of PV power production forecasts is increased by including a refined version of the LSTM neural network in the energy management system. The efficiency of the OHM-GEM system in maximizing PV system integration into buildings is shown by the authors using simulated data. With considerable gains in energy efficiency, cost savings, and decreased reliance on non-renewable energy sources, the results highlight the possibility of this approach to forward sustainable energy practices.

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DOI:
Digital Object Identifier (open in new tab) 10.1016/j.csite.2024.105115
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Category:
Articles
Type:
artykuły w czasopismach
Published in:
Case Studies in Thermal Engineering no. 61,
ISSN: 2214-157X
Language:
English
Publication year:
2024
Bibliographic description:
Arun M., Le T. T., Barik D., Sharma P., Osman S. M., Huynh V. K., Kowalski J., Dong V. H., Le V. V.: Deep learning-enabled integration of renewable energy sources through photovoltaics in buildings// Case Studies in Thermal Engineering -Vol. 61, (2024), s.105115-
DOI:
Digital Object Identifier (open in new tab) 10.1016/j.csite.2024.105115
Sources of funding:
  • Free publication
Verified by:
Gdańsk University of Technology

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