Exploring Light Permeability of Rammed Earth Blocks with Recycled Glass

Mehmet Onur Senem; Salih Özdemir; Orkan Zeynel Güzelci; Sema Alaçam

doi:10.5755/j01.sace.37.1.37037

Exploring Light Permeability of Rammed Earth Blocks with Recycled Glass

Mehmet Onur Senem^*, Salih Özdemir, Orkan Zeynel Güzelci, Sema Alaçam

^*Corresponding author for this work

Istanbul Technical University

Research output: Contribution to journal › Article › peer-review

Abstract

This study aims to address the environmental issues arising from traditional building materials such as concrete and steel by introducing a building unit that combines rammed earth with recycled glass. The use of glass alongside earth aims to enhance illumination levels and light permeability in interiors without using conventional building components like doors or windows. The scope includes fabricating blocks with varying hollow and glass material ratios to measure their light transmittance capacities. A setup involving a light source, an earthen block, and a lux meter is developed to calculate light transmittance for both non-filled and glass-filled blocks. Results indicate that when the developed unit is used to produce a wall, it can provide illumination levels from 750 to 34,500 lux in interior spaces.

Original language	English
Pages (from-to)	76-83
Number of pages	8
Journal	Journal of Sustainable Architecture and Civil Engineering
Volume	37
Issue number	1
DOIs	https://doi.org/10.5755/j01.sace.37.1.37037
Publication status	Published - 20 May 2025

Bibliographical note

Publisher Copyright:
© 2025, Kauno Technologijos Universitetas. All rights reserved.

Keywords

light permeability
rammed earth
recycled glass
sustainability
traditional building materials

Access to Document

10.5755/j01.sace.37.1.37037

Cite this

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abstract = "This study aims to address the environmental issues arising from traditional building materials such as concrete and steel by introducing a building unit that combines rammed earth with recycled glass. The use of glass alongside earth aims to enhance illumination levels and light permeability in interiors without using conventional building components like doors or windows. The scope includes fabricating blocks with varying hollow and glass material ratios to measure their light transmittance capacities. A setup involving a light source, an earthen block, and a lux meter is developed to calculate light transmittance for both non-filled and glass-filled blocks. Results indicate that when the developed unit is used to produce a wall, it can provide illumination levels from 750 to 34,500 lux in interior spaces.",

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PY - 2025/5/20

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N2 - This study aims to address the environmental issues arising from traditional building materials such as concrete and steel by introducing a building unit that combines rammed earth with recycled glass. The use of glass alongside earth aims to enhance illumination levels and light permeability in interiors without using conventional building components like doors or windows. The scope includes fabricating blocks with varying hollow and glass material ratios to measure their light transmittance capacities. A setup involving a light source, an earthen block, and a lux meter is developed to calculate light transmittance for both non-filled and glass-filled blocks. Results indicate that when the developed unit is used to produce a wall, it can provide illumination levels from 750 to 34,500 lux in interior spaces.

AB - This study aims to address the environmental issues arising from traditional building materials such as concrete and steel by introducing a building unit that combines rammed earth with recycled glass. The use of glass alongside earth aims to enhance illumination levels and light permeability in interiors without using conventional building components like doors or windows. The scope includes fabricating blocks with varying hollow and glass material ratios to measure their light transmittance capacities. A setup involving a light source, an earthen block, and a lux meter is developed to calculate light transmittance for both non-filled and glass-filled blocks. Results indicate that when the developed unit is used to produce a wall, it can provide illumination levels from 750 to 34,500 lux in interior spaces.

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Exploring Light Permeability of Rammed Earth Blocks with Recycled Glass

Abstract

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Keywords

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