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Photopic and Melanopic Analysis of Daylight Through Glazing in Indoor Environments

Ana Sanchez-Cano / Elvira Orduna-Hospital / Justiniano Aporta

Daylight influences more than just our vision; elements such as its intensity and spectral composition can significantly impact our circadian rhythms and, consequently, our overall well-being. In this study, we present an analysis of a classroom simulated in Dialux, involving a comprehensive examination of natural daylight through a specific type of glazing, assessing their photopic characteristics and their influence on the human circadian system in individuals aged 32 and 70 years. Our findings highlight that spectral data from daylight (D75, D65, and D50) and glazing transmittance can be easily used to evaluate the melanopic equivalent daylight illuminance (mel-EDI) in addition to standard photopic illuminance, applying a ${f (\frac{M}{P})}_{G l a z i n g}$ factor calculated from the spectral characteristics of both daylight and glazing transmittance. Our results provide new insights for users to more effectively assess daylighting quality and its implications within indoor environments.

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Photopic and Melanopic Analysis of Daylight Through Glazing in Indoor Environments

Ana Sanchez-Cano / Elvira Orduna-Hospital / Justiniano Aporta

Daylight influences more than just our vision; elements such as its intensity and spectral composition can significantly impact our circadian rhythms and, consequently, our overall well-being. In this study, we present an analysis of a classroom simulated in Dialux, involving a comprehensive examination of natural daylight through a specific type of glazing, assessing their photopic characteristics and their influence on the human circadian system in individuals aged 32 and 70 years. Our findings highlight that spectral data from daylight (D75, D65, and D50) and glazing transmittance can be easily used to evaluate the melanopic equivalent daylight illuminance (mel-EDI) in addition to standard photopic illuminance, applying a ${f (\frac{M}{P})}_{G l a z i n g}$ factor calculated from the spectral characteristics of both daylight and glazing transmittance. Our results provide new insights for users to more effectively assess daylighting quality and its implications within indoor environments.

Photopic and Melanopic Analysis of Daylight Through Glazing in Indoor Environments

Ana Sanchez-Cano / Elvira Orduna-Hospital / Justiniano Aporta

Daylight influences more than just our vision; elements such as its intensity and spectral composition can significantly impact our circadian rhythms and, consequently, our overall well-being. In this study, we present an analysis of a classroom simulated in Dialux, involving a comprehensive examination of natural daylight through a specific type of glazing, assessing their photopic characteristics and their influence on the human circadian system in individuals aged 32 and 70 years. Our findings highlight that spectral data from daylight (D75, D65, and D50) and glazing transmittance can be easily used to evaluate the melanopic equivalent daylight illuminance (mel-EDI) in addition to standard photopic illuminance, applying a ${f (\frac{M}{P})}_{G l a z i n g}$ factor calculated from the spectral characteristics of both daylight and glazing transmittance. Our results provide new insights for users to more effectively assess daylighting quality and its implications within indoor environments.

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Title:

Photopic and Melanopic Analysis of Daylight Through Glazing in Indoor Environments

Contributors:

Ana Sanchez-Cano (author) / Elvira Orduna-Hospital (author) / Justiniano Aporta (author)

Published in:

Buildings, Vol 14, Iss 10, p 3291 (2024)

Publication date:

2024

ISSN:

DOI:

https://doi.org/10.3390/buildings14103291

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

daylight , circadian effects , spectral power distribution , transmittance , indoor environments , Building construction , TH1-9745

Metadata by DOAJ is licensed under CC BY-SA 1.0

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