Abstract
This article depicts the effect of carding and pressing on hygrothermal properties of hemp fibers nonwoven mats, trying to understand if their implementation can improve their behavior when employed as insulation materials in buildings. Hemp fibers belonging to Cannabis Sativa species and coming from local area (Apulia - Italy) were examined, then samples of carded and pressed hemp fibers nonwoven mats were prepared. According to European standards, the thermal conductivity, the vapor permeability and the fire reaction of hemp fibers samples were measured. Results were compared to each other and with those of a commercial nonwoven mat made with hemp (90 wt. %) and synthetic fibers (10 wt. %), used as reference. We observed that carded and pressed hemp fibers were characterized by a lower thermal conductivity when compared to unprocessed hemp fibers, likely because the removing of wood elements. On the other hand, not processed hemp fibers show higher breathability when compared to carded and pressed ones, as well as with respect to the commercial nonwoven mat. Moreover, it was proved that the absence of synthetic commingled fibers in hemp fibers allows a better behavior in fire reaction. At last, the improvement in terms of insulation properties of a hollow brick when filled with hemp fibers was verified, by comparing the thermal conductivities of an empty and a filled hollow brick; as expected, the filled hollow brick shows a lower thermal conductivity, underlining the effectiveness of hemp fibers as insulation material.
Highlights
Together with Industrial and Transportation sectors, the Building sector is considered one of the major responsible of worldwide energy consumption
An alternative application is the use of hemp fibers as nonwoven mats, or in the form of bulk material for example to fill the holes of common hollow brick; in last years, we investigated this approach noticing an improvement in the dynamic thermal behavior
An experimental study was undertaken to understand the influence of some mechanical operations on hygrothermal properties of hemp fibers, in particular on thermal conductivity, vapor permeability and fire reaction
Summary
Together with Industrial and Transportation sectors, the Building sector is considered one of the major responsible of worldwide energy consumption. Latif et al [17] explored the effects of high, normal and low internal moisture loads on wall panels with wood-hemp composite insulation, in particular with and without a vapor barrier. They found that the temperature and the exposure conditions in the insulation and oriented strand board (OSB) interfaces of the panel without a vapor barrier were found to be more favorable to the germination of mould spores. The effectiveness of the presence of hemp fibers in the holes of hollow bricks has been investigated, comparing the thermal conductivities of empty and filled bricks
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