Sustainable thermal insulation biocomposites from rice husk, wheat husk, wood fibers and textile waste fibers: Elaboration and performances evaluation

Muthuraj, Rajendran; Lacoste, Clément; Lacroix, Patrick; Bergeret, Anne

doi:10.1016/j.indcrop.2019.04.053

Cited by 197 publications

(111 citation statements)

References 54 publications

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“…Many other research works confirmed that the use of discarded products of industrial and agricultural processes can be used as based materials for insulating panels. In [10] locally available by-products (rice husk, wheat husk, wood fibre, and textile waste fibre) were used to produce composites with a biodegradable poly(butylene adipateco-terephthalate)/poly(lactic acid) (PBAT/PLA) blend binder by hot pressing. The density and thermal conductivity of the produced composites were in the 378-488 kg/m 3 and 0.08-0.14 W/mK range, respectively.…”

Section: Introductionmentioning

confidence: 99%

Production of eco-sustainable insulating panels by recovering wood waste: fabrication and preliminary experimental characterization of thermal and acoustic properties

2020

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The work was developed in the ReScaLe FiAer project framework, funded by the Fondazione Cassa di Risparmio di Perugia. It is focused on the identification and collection of multiple high quality wood waste from a local window manufacturer. Three types of wood were available, from different tree species (pine, oak, and mahogany) and sizes (pieces of wood, mixed coarse chips, and mixed fine chips). Preliminary analyses were performed in order to evaluate the properties of the raw material. For each type of wood, eco-sustainable panels (300x300 mm2) were assembled by gluing. Multiple tests were carried out in order to identify the optimal mixtures and to ensure a good mechanical resistance with the minimum adhesive use. Panels were assembled by using vinyl glue, easily available and cheap, and flour glue, with a lower environmental impact and safe for people’s health. The thermal conductivity of the panels was measured by means of the Small Hot Box experimental apparatus: it varies in the 0.071-0.084 W/mK range, at an average temperature of 10°C, depending on the tree species and regardless of the type of adhesive used. Furthermore, 100-mm diameter cylindrical samples with two different thicknesses for each type of wood and glue were fabricated, in order to investigate their acoustic behaviour in an impedance tube. The use of flour glue improves the sound absorption and insulation performance of the samples.

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Section: Introductionmentioning

confidence: 99%

Production of eco-sustainable insulating panels by recovering wood waste: fabrication and preliminary experimental characterization of thermal and acoustic properties

2020

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“…Interestingly, the wheat fibre chaff showed excellent thermal conductivity coefficient under steady-state and dynamic conditions (0.307 W m −1 K −1 and 0.298 W m −1 K −1 , respectively) [141]. Several research also established the good thermal resistance of straw fibres BCB [127,[142][143][144][145][146]. Therefore, straw fibres BCB have good thermal insulation effect, which could be mainly used as filling materials in the refrigerator, chemical transportation pipeline insulation material, and thermal insulation layer of building wall surface etc just like in the case of rigid polyurethane foams manufactured from corn straw powder [147].…”

Section: Fibre Typementioning

confidence: 95%

Key advances in development of straw fibre bio-composite boards: An overview

Aladejana

Fan

2020

Mater. Res. Express

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In recent years, considerable attention have been given to the development and utilization of biodegradable fibres for bio-composite boards. This is due to the increase in the environmental consciousness and the need for sustainable development which enable establishment of new materials majorly for packaging, aircraft, furniture, and automobile. Straw fibres (wheat, rice, and corn fibre) are the most available natural agricultural wastes products, which has been utilized for the production of these new materials. This paper hence reviews the enhancement in production methodology and properties of the straw fibres bio-composite boards to add further scientific knowledge to the potentiality of using agricultural fibres as value added products. The future replacement of conventional wood fibres for the production of bio-composite panels, especially with agricultural wastes, could be centered on straw fibres. The introduction of straw fibres in polymer matrices were presented based on various research outcomes. Biodegradable fibres could be regarded as a good fibrous composite material. Although, more efforts are still needed in developing facile straw fibre composite production methods and materials with robust industrial and domestic applications.

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“…Anti-odour, antimicrobial, aromatic; UV radiation protection [34,35] Rice husks Rice processing Thermal insulation potential [36] Eucalyptus bark Wood processing industry Antimicrobial, aromatic [37,38] Pine bark To feed Antioxidant, antimicrobial, aromatic [39,40] Pine sawdust, composite sawdust, powder and pieces…”

Section: Coffee Grounds Coffee Production Processmentioning

confidence: 99%

Innovation of Textiles through Natural By-Products and Wastes

Reis¹,

Coelho²,

María³

et al. 2020

Waste in Textile and Leather Sectors

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Nowadays, the competitiveness of the textile industry and the consumers' interest have been increasing the demand for innovative and functional textiles. Allied to this, sustainable developments are playing an increasingly important role in the textile industry. Such concerns led to a new development strategy based on the valorization of bio-based wastes and by-products of different industries, inserting this in the circular economy paradigm. These bio-based wastes and by-products come from several industries, as the agri-food industry. These resources present an enormous potential for valorization in the textile finish due to their intrinsic properties (antimicrobial, prebiotic, antioxidant activity, among others). This chapter will review the latest innovation and textile product development through different by-products and wastes, their main properties and characteristics and the advantages that they offer to the textile industry.

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Sustainable thermal insulation biocomposites from rice husk, wheat husk, wood fibers and textile waste fibers: Elaboration and performances evaluation

Cited by 197 publications

References 54 publications

Production of eco-sustainable insulating panels by recovering wood waste: fabrication and preliminary experimental characterization of thermal and acoustic properties

Production of eco-sustainable insulating panels by recovering wood waste: fabrication and preliminary experimental characterization of thermal and acoustic properties

Key advances in development of straw fibre bio-composite boards: An overview

Innovation of Textiles through Natural By-Products and Wastes

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