Abstract
This paper investigates the performance of timber-framed walls insulated with straw bales, and compares them with similar walls containing expanded polystyrene (EPS) instead of straw bales. First, thermal conductivity, initial water content, and density of the straw bales were experimentally measured in a laboratory set-up, and the dependence of the thermal conductivity of the dry material on temperature was described. Then, the two insulation solutions were compared by looking at their steady and periodic thermal transmittance, decrement factor, phase shift, internal areal heat capacity and surface mass. Finally, the acoustic performance of both wall typologies was analyzed by means of in situ measurements in two-story buildings built in Southern Italy. The weighted apparent sound reduction index for the partition wall between two houses and the weighted standardized level difference for the façades were assessed based on ISO Standard 16283. The results indicate that the dry straw bales have an average thermal conductivity of k = 0.0573 W/(m·K), and their density is around 80 kg/m3. In addition, straw bale walls have good steady thermal performance, but they still lack sufficient thermal inertia, as witnessed by the low phase shift and the high periodic thermal transmittance. Finally, according to the on-site measurements, the results underline that the acoustic performance of the straw bale walls is far better than the walls adopting traditional EPS insulation. Overall, the straw bales investigated are a promising natural and sustainable solution for thermal and sound insulation of buildings.
Highlights
Nowadays, synthetic products and mineral wools account for more than 90% of the market of insulating materials in the construction sector, thanks to their excellent performance and their cost effectiveness [1]
According to the outcomes of this paper, the straw bales analyzed here can be effectively used as an insulating material in timber-framed constructions instead of more common materials such as expanded polystyrene (EPS)
The initial water content of the straw bales is above 8%; this suggests that, when addressing the calculation of the thermal properties of a wall insulated with these straw bales, their thermal conductivity should be appropriately increased
Summary
Synthetic products and mineral wools account for more than 90% of the market of insulating materials in the construction sector, thanks to their excellent performance and their cost effectiveness [1]. Their production processes consume high amounts of non-renewable resources and have a strong environmental impact, especially in terms of greenhouse gas emissions [2]. Straw is a co-product of agricultural grain, and it is currently produced in excess of its demand; it is cheap and accessible in many regions of the world [9]. Straw bale buildings can be found in many locations around the world, including the USA, Europe, Canada, Australasia, Japan, and China
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