TY - Type of reference TI - Characterization and thermal performance of Furcraea Foetida fibers and pineapple mash as loose-fill insulating material AU - Hélène Caillet AU - Julie Bascaules AU - Youssoufou Mahaman AU - Patrick Rousset AU - Jean-François Martin AU - Laetitia Adelard AU - Olivier Marc AB - In Reunion Island, agricultural waste from pineapple cultivation and Furcraea Foetida (a pestilence also known as choka) are not currently valorized. In the construction sector, non-biosourced thermal insulation has a significant environmental impact, despite being essential for reducing the energy consumption of buildings. In this study, we are interested in the valorization of these waste products through fibers extraction for the production of loose-fill thermal insulation. The objectives are (i) to characterize choka leaf fibers, (ii) to evaluate the thermal conductivity of an insulator produced from choka fibers and (iii) to evaluate the thermal conductivity of a loose-fill insulator produced from pineapple leaf mash as a function of density. The minimum thermal conductivities obtained are 0.066 W/m.K for choka fiber insulation (density 0.022) and 0.058 W/m.K for pineapple leaf mash insulation (density 0.159). DO - 10.21494/ISTE.OP.2023.1017 JF - Entropy: Thermodynamics – Energy – Environment – Economy KW - Fibers, choka, ananas, loose-fill insulating material, biosourced material, Fibres, choka, ananas, isolant en vrac, matériau biosourcé, L1 - https://openscience.fr/IMG/pdf/iste_entropie23v4n3_4.pdf LA - en PB - ISTE OpenScience DA - 2023/10/19 SN - 2634-1476 TT - Caractérisation et performances thermiques des fibres de Furcraea Foetida et de broyat d’ananas en tant que matériau isolant en vrac UR - https://openscience.fr/Characterization-and-thermal-performance-of-Furcraea-Foetida-fibers-and IS - Special issue VL - 4 ER -