Dynamic and Spectral Transmission Changes in a Glass System Coupled with Photovoltaics and Phase Change Materials Subjected to Solar Simulator Tests

Dynamic and Spectral Transmission Changes in a Glass System Coupled with Photovoltaics and Phase Change Materials Subjected to Solar Simulator Tests

Stať ve sborníku v databázi WoS či Scopus

The intention of this study concerns the analysis of thermo-optical changes in a glass block system coupled with photovoltaic (PV) and phase change material (PCM). As solar simulators are considered key methodologies for conducting solar-based research under a well-controlled environment, this study employs small-scale solar simulator tests to reveal spectral and dynamic changes in a PV and PCM glass system. Therefore, the experimental setup was equipped with a spectrometer, and the spectral light transmittance data were obtained. This was also implemented for the dynamic transmittance analysis to characterize optical-responsive mechanisms in developing a semi-transparent system with PV and PCM. Though results revealed that spectral transmittance data provide a new insight subjected to PV and PCM characterization, certain limitations were drawn that the selection of light source is crucial, and the addition of a PV layer causes some specific problems to account for the edge transmittance effect.

The intention of this study concerns the analysis of thermo-optical changes in a glass block system coupled with photovoltaic (PV) and phase change material (PCM). As solar simulators are considered key methodologies for conducting solar-based research under a well-controlled environment, this study employs small-scale solar simulator tests to reveal spectral and dynamic changes in a PV and PCM glass system. Therefore, the experimental setup was equipped with a spectrometer, and the spectral light transmittance data were obtained. This was also implemented for the dynamic transmittance analysis to characterize optical-responsive mechanisms in developing a semi-transparent system with PV and PCM. Though results revealed that spectral transmittance data provide a new insight subjected to PV and PCM characterization, certain limitations were drawn that the selection of light source is crucial, and the addition of a PV layer causes some specific problems to account for the edge transmittance effect.

Phase change material; Photovoltaic; Solar simulator; Spectrophotometry; Transmittance

Phase change material; Photovoltaic; Solar simulator; Spectrophotometry; Transmittance

ČURPEK, J.; ČEKON, M.; KURUC, M.; SLÁVIK, R.; JUNAID, M.

2024

05.10.2023

Springer Nature Singapore Pte Ltd.

Singapore

9789811998218

COBEE 2022: Proceedings of the 5th International Conference on Building Energy and Environment

1863-5539

Environmental Science and Engineering

Švýcarská konfederace

785

793

9

https://link.springer.com/chapter/10.1007/978-981-19-9822-5_84