Sustainable thermo-acoustical insulation material from cardboard waste and natural fibers: Elaboration and performance evaluation

Ouakarrouch, Mohamed; Laaroussi, Najma; Garoum, Mohammed; Bousshine, Said; Bybi, Abdelmajid; Benallel, Abderrahim; Tilioua, Amine

doi:10.1177/17442591221121924

Cited by 4 publications

(2 citation statements)

References 28 publications

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“…Materials that have high cellulose are very good as sound-dampening materials, for example, the characteristics of pineapple leaves which contain high cellulose have a soft surface and have a high shelf life, so they meet the requirements for sound absorption. [11] Other acoustic materials derived from natural fibers that have high efficiency and are environmentally friendly can also include sugarcane bagasse, banana fronds, or straw fibers [12].…”

Section: Acoustic Approachmentioning

confidence: 99%

Spatial Acoustic Approach: Sustainable Design Methods in Creative Centre Building

Herman,

Saragih

2024

IOP Conf. Ser.: Earth Environ. Sci.

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The creative center is a place for the creativity of creative economy actors in the form of physical infrastructure, the development of a creative center will be more than just a community gathering place but as an intermediary in one strategic sector, namely the creative and digital economy. In the creative center, of course, every main room has activities that produce sound, basically not only do certain rooms have audio requirements, but even simple rooms require acoustic handling. Noise will occur in every activity; therefore, the acoustic space will answer to support the activities. users, the research uses qualitative methods and there is data analysis through precedents, The sustainability that will be achieved by implementing acoustics in this creative center building is not only the comfort of building users but also the materials for the surrounding environment.

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Section: Acoustic Approachmentioning

confidence: 99%

Spatial Acoustic Approach: Sustainable Design Methods in Creative Centre Building

Herman,

Saragih

2024

IOP Conf. Ser.: Earth Environ. Sci.

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“…The results prove that the inclusion of doum fiber enhances the thermal insulation of CEB. Ouakarrouch et al (2022) studied thermal and acoustical properties of novel panel made with cardboard waste and vegetable fiber. The panel exhibited a thermal conductivity range of 0.072–0.10 W.m −1 .K −1 .…”

Section: Introductionmentioning

confidence: 99%

Thermal properties and Life Cycle Assessment of new eco-sandwich panel for building thermal insulation

Er-rradi,

Mghazli,

Jilbab

et al. 2023

Journal of Building Physics

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Lightweight eco-materials are in high demand in many sectors, such as aerospace, industry, and building due to their several characteristics. The present paper is an experimental investigation of the thermal characteristics of novel sandwich panels made with local and ecological materials namely agglomerated cork for the core and bio-composite materials for the skin. Three configurations (symmetric, asymmetric, and two layers) were studied with different cork core thicknesses. Density values have been measured and compared. Thermal characterization consists of determining thermal conductivity and specific heat using a HFM apparatus; whilst thermal diffusivity and thermal effusivity have been calculated using the experimental findings. The panels are lightweight and thermally insulating. The values of thermal conductivity are in the range 0.071 and 0.102 W.m−1.K−1. The comparison between experimental results of thermal conductivity to theoretical values highlights the accuracy of method for multi-layer thermal characterization and the good adhesion between layers. Finally, a life cycle assessment of the new sandwich panels has been carried out and compared with common insulation materials. The sandwich panels are efficient in terms of embodied energy and CO2 emissions compared to commercialized insulators and some insulators based on recycled or natural materials, the embodied energy for symmetric configuration with 4 cm cork core are 79.73, 94.75, and 89.35 MJ/FU corresponding to an embodied carbon 5.33, 6.32, and 6.01 CO2/FU respectively. They can be classified in the middle between synthetic and natural insulators. Based on the findings, it was concluded that utilizing these sandwich panels as construction materials for interior paneling or partition walls could offer benefits in terms of being environmentally sustainable and cost-efficient.

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Applicability of developing an affordable eco-friendly switchable insulation for sustainable building envelopes in a hot climate: Comprehensive review

Salah,

Nada,

Mahmoud

2024

Energy and Buildings

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Sustainable thermo-acoustical insulation material from cardboard waste and natural fibers: Elaboration and performance evaluation

Cited by 4 publications

References 28 publications

Spatial Acoustic Approach: Sustainable Design Methods in Creative Centre Building

Spatial Acoustic Approach: Sustainable Design Methods in Creative Centre Building

Thermal properties and Life Cycle Assessment of new eco-sandwich panel for building thermal insulation

Applicability of developing an affordable eco-friendly switchable insulation for sustainable building envelopes in a hot climate: Comprehensive review

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