[en] The thermal conductivity of straw bales is an intensively discussed topic in the international straw bale community. Straw bales are, by nature, highly heterogeneous and porous. They can have a relatively large range of density and the baling process can influence the way the fibres are organised within the bale. In addition, straw bales have a larger thickness than most of the insulating materials that can be found in the building industry. Measurement apparatus is usually not designed for such thicknesses, and most of the thermal conductivity values that can be found in the literature are defined based on samples in which the straw bales are resized. During this operation, the orientation of the fibres and the density may not be preserved. This paper starts with a literature review of straw bale thermal conductivity measurements and presents a measuring campaign performed with a specific Guarded Hot Plate, designed to measure samples up to 50 cm thick. The influence of the density is discussed thoroughly. Representative values are proposed for a large range of straw bales to support straw-bale development in the building industry.
Disciplines :
Architecture
Author, co-author :
Costes, Jean-Philippe; Arts et Metiers ParisTech, LaBoMaP, Cluny
Evrard, Arnaud; Université Catholique de Louvain - UCL > Architecture et Climat
Biot, Benjamin; Institut de Conseil et d’Etudes en Développement Durable
Keutgen, Gauthier; Institut de Conseil et d’Etudes en Développement Durable
DARAS, Amaury ; Université de Liège > Département ArGEnCo > Matériaux de construction non métalliques du génie civil
Dubois, Samuel
Lebeau, Frédéric ; Université de Liège > Ingénierie des biosystèmes (Biose) > Agriculture de précision
Courard, Luc ; Université de Liège > Département ArGEnCo > Matériaux de construction non métalliques du génie civil
Language :
English
Title :
Thermal Conductivity of Straw Bales: Full Size Measurements Considering the Direction of the Heat Flow
European Straw Bale Gathering-ESBG: Montargis, France, 20-25 August 2015. Available online: www.esbg2015.eu (accessed on 10 September 2016).
EN ISO 10456:2007 Building Materials and Products-Hygrothermal Properties-Tabulated Design Values and Procedures for Determining Declared and Design Thermal Values; ISO: Geneva, Switzerland, 2007.
Dubois, S.; Lebeau, F. Design, Construction and Validation of a Guarded Hot Plate Apparatus for Thermal Conductivity Measurement of High Thickness Crop-Based Specimens. Mater. Struct. 2015, 48, 407-421. [CrossRef]
ISO 8302:1991 Thermal Insulation-Determination of Steady-State Thermal Resistance and Related Properties-Guarded Hot Plate Apparatus; ISO: Geneva, Switzerland, 1991.
McCabe, J. Thermal Resistivity of Straw Bales for Construction. Master's Thesis, University of Arizona, Tucson, AZ, USA, 1993.
Andersen, B.M.; Munch-Andersen, J. Halmballer og Muslinger som Isoleringsmaterialer; Report 2001-06-21; Statens Byggeforskningsinstitut: Copenhagen, Denmark, 2001.
Shea, A.D.; Wall, K.; Walker, P. Evaluation of the thermal performance of an innovative prefabricated natural plant fibre building system. Build. Serv. Eng. Res. Technol. 2013, 344, 369-380. [CrossRef]
Prüfbericht. Wärmeleitfähigkeit nach EN 12667; Forchungsinstitut für Wärmeschutz e.V.: München, Germany, 2010.
Deutsches Institut für Bautechnik (DIB). Available online: https://www.dibt.de/index_eng.html (accessed on 10 September 2016).
Douzane, O.; Promis, G.; Roucoult, J.-M.; Le, A.-D.T.; Langlet, T. Hygrothermal performance of a straw bale building: In situ and laboratory investigations. J. Build. Eng. 2016, 8, 91-98. [CrossRef]
Conti, L.; Barbari, M.; Monti, M. Steady-State Thermal Properties of Rectangular Straw-Bales (RSB) for Building. Buildings 2016, 6, 44. [CrossRef]
Wei, K.; Lv, C.; Chen, M.; Zhou, X.; Dai, Z.; Shen, D. Development and performance evaluation of a new thermal insulation material from rice straw using high frequency hot-pressing. Energy Build. 2015, 87, 116-122.
Grelat, A. Using Sustainable Materials as Walling for Individual Housing With Wood Structure; Final report; Centre D'expertise du Batiment et des Travaux Public: Saint-Remy-Les-Chevreuse, France, 2004.
Palumbo, M.; Lacasta, A.M.; Holcroft, N.; Shea, A.;Walker, P. Determination of hygrothermal parameters of experimental and commercial bio-based insulation materials. Constr. Build. Mater. 2016, 124, 269-275. [CrossRef]
Allgemeine bauaufsichliche Zulassung-Wärmedämmstoff aus Strohballen Baustrohballen Technical agreement no Z-23.11-1595; Deutsches Institut für Bautechnik: Berlin, Germany, 2006.
