Thermal Behavior of Photovoltaic Modules for Building Integration

Thermal Behavior of Photovoltaic Modules for Building Integration

In Algeria, fossil energy occupies a preponderant place to satisfy the growing energy need. This represents a major problem for future generations due on the one hand to the depletion of this resource and on the other hand to global warming. According to the CEREFE report on energy transition - 2020...

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Bibliographic Details
Published in:2023 Second International Conference on Energy Transition and Security (ICETS) pp. 1 - 6
Main Authors: Madjoudj, N., Belhaouas, N., Nemsi, S., Hafdaoui, H., Mhareb, F., Bakria, K., Assem, H., Hadjrioua, F., Semaoui, S.
Format: Conference Proceeding
Language:English
Published: IEEE 12-12-2023
Subjects:
Adaptation models
Biological system modeling
Building rehabilitation
Buildings
Estimation
Matlab
Photovoltaic module
Photovoltaic systems
Temperature measurement
Thermal model
Wind speed
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Summary:In Algeria, fossil energy occupies a preponderant place to satisfy the growing energy need. This represents a major problem for future generations due on the one hand to the depletion of this resource and on the other hand to global warming. According to the CEREFE report on energy transition - 2020 edition, the tertiary and residential building sector represents more than 40% of the country's total consumption [1]. BIPV represents an added value of sustainability, energy performance and promising economic prospects. It is an essential element of sustainable construction because it provides architectural functions such as waterproofing, insulation, solar protection and aesthetics. Knowing the operating temperature of the PV module is the key element for determining the temperature losses in a photovoltaic (PV) installation. In-situ, the temperature of the modules is difficult to measure, however, it is determined using models from the literature. The models used for the temperature estimation are programmed under Matlab. The objective of this work is the comparative study between different models of the literature, for the estimation of the temperature of the photovoltaic modules. The data used is extracted from a test bench developed to supply electricity to an office floor at the CDER.
DOI:10.1109/ICETS60996.2023.10410829