A conceptual framework for modelling the thermal conductivity of dry green roof substrates

Gerzhova, Nataliia; Côté, Jean; Blanchet, Pierre; Dagenais, Christian; Ménard, Sylvain

doi:10.15376/biores.14.4.8573-8599

Cited by 8 publications

(2 citation statements)

References 35 publications

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“…A green roof reduced the flow of heat by 70% to 90% in summer and by 10% to 30% in winter compared to a traditional roof [199]. Green roofs are also an interesting strategy to protect wood structures from igniting [200,201]. 6.…”

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confidence: 99%

A State of the Art of the Overall Energy Efficiency of Wood Buildings—An Overview and Future Possibilities

Cabral

Blanchet

2021

Materials

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The main goal of this study was to review current studies on the state of the art of wood constructions with a particular focus on energy efficiency, which could serve as a valuable source of information for both industry and scholars. This review begins with an overview of the role of materials in wood buildings to improve energy performance, covering structural and insulation materials that have already been successfully used in the market for general applications over the years. Subsequently, studies of different wood building systems (i.e., wood-frame, post-and-beam, mass timber and hybrid constructions) and energy efficiency are discussed. This is followed by a brief introduction to strategies to increase the energy efficiency of constructions. Finally, remarks and future research opportunities for wood buildings are highlighted. Some general recommendations for developing more energy-efficient wood buildings are identified in the literature and discussed. There is a lack of emerging construction concepts for wood-frame and post-and-beam buildings and a lack of design codes and specifications for mass timber and hybrid buildings. From the perspective of the potential environmental benefits of these systems as a whole, and their effects on energy efficiency and embodied energy in constructions, there are barriers that need to be considered in the future.

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confidence: 99%

A State of the Art of the Overall Energy Efficiency of Wood Buildings—An Overview and Future Possibilities

Cabral

Blanchet

2021

Materials

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“…( 19) toma en cuenta la porosidad del sustrato debido a que se ha demostrado, mediante experimentos y simulación numérica, que la conductividad térmica depende de la porosidad y de las propiedades térmicas de los componentes minerales del sustrato. 20 Las condiciones iniciales para las Ecs. ( 15) y ( 19) están dadas por:…”

Section: Modelo De Transferencia De Calor Para Elementos Envolventesunclassified

Efecto térmico de las azoteas verdes en la Ciudad de México, Yucatán y Coahuila

et al. 2023

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En este trabajo, se presenta un modelo matemático de transferencia de calor para evaluar el efecto térmico de la implementación de azoteas verdes extensivas para la rehabilitación de edificaciones mal aisladas sometidas a las condiciones climáticas de la Ciudad de México, Yucatán y Coahuila. El modelo, que requiere pocos datos de entrada, es resuelto numéricamente e implementado en Python. Los resultados muestran que la implementación de una azotea verde contribuye a disminuir la amplitud de oscilación en la temperatura interna de la edificación, disminuye la temperatura media interior, y reduce el consumo de energía eléctrica destinada al acondicionamiento de aire.

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Effects of core air gaps and steel inserts on thermal response of GFRP-balsa sandwich panels subjected to fire

Vahedi

Correia

Vassilopoulos

et al. 2022

Fire Safety Journal

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A conceptual framework for modelling the thermal conductivity of dry green roof substrates

Cited by 8 publications

References 35 publications

A State of the Art of the Overall Energy Efficiency of Wood Buildings—An Overview and Future Possibilities

A State of the Art of the Overall Energy Efficiency of Wood Buildings—An Overview and Future Possibilities

Efecto térmico de las azoteas verdes en la Ciudad de México, Yucatán y Coahuila

Effects of core air gaps and steel inserts on thermal response of GFRP-balsa sandwich panels subjected to fire

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