, Clay building materials: Manufacturing and properties, 2005.
, Management of agricultural biomass wastes: preliminary study on characterization and valorisation in clay matrix bricks, Waste Manage, vol.33, pp.2307-2315, 2013.
, Development of eco-friendly porous fired clay bricks using pore-forming agents: a review, J. Environ. Manage, vol.143, pp.186-196, 2014.
, Khattab, Combinations of organic and inorganic wastes for brick production, Polym. Compos, vol.1, pp.174-179, 2014.
, Buildings and Climate Change: Status, Cllallenges and Opportunities (United Nations Environment Programme), UNEP, 2006.
, Life cycle assessment (LCA) and life cycle energy analysis (LCEA) of buildings and the building sector: a review, Renew. Sustain. Energy Rev, vol.29, pp.394-416, 2014.
, Environmental life cycle assessment of traditional bricks in Western Maharashtra, lndia. Energy Procedia, vol.54, pp.260-269, 2014.
, An attributional and consequential life cycle assessment of substituting concrete with bricks, J. Cleaner Prod, vol.81, pp.190-200, 2014.
, Dom pros, Environmental assessment of brick production in Greece, Build. Environ, vol.42, pp.2114-2123, 2007.
, Ufe Cycle Analysis of Brick and Mortar Products. Sustainable Materials lnstitute, 1998.
, Environmental and Health Declaration Sheets -Porotherrn R3 7
, Environmental and Health Declaration Sheets -Monomur 37,5 narrow-joint in fired clay, 2011.
, Fired clay bricks using agricultural biomass wastes: Study and characterization, Constr. Build. Mater, vol.91, pp.158-163, 2015.
, Thermal decomposition of dimethoxymethane and dimethyl carbonate catalyzed by solid acids and bases, Therrnochim. Acta, vol.434, pp.88-92, 2005.
, Study of the characteristics of a biobased pore-forming agent and mechanisms used to obtain a micro-porous building brick with high thermal and mechanical properties, 2015.
, Standard C210-95, Standard Test Method for Reheat Change of Insulating Firebrick, American Society for Testing and Materials (ASTM), 1995.
, GranDuBé: quantities related to the sustainability of concrete, 2007.
, Standard C518, Standard Test Method for Steady-State Thermal Transmission Properties by Means of the Heat Flow Meter Apparatus, American Society for Testing and Materials (ASTM), 2004.
, Thermal insulation -Determination of thermal resistance and related properties under steady -flow meter method, ISO, vol.8301, 1991.
, Thermal performance of materials and products for buildings -Determination of thermal resistance by means of guarded hot plate and heat flow meter methods -Products of high and medium thermal resistance, 2001.
, Environmental management -Life cycle assessment -Principles and framework, ISO 14040, 2006.
, Environmental management -Life cycle assessmentRequirements and guidelines, ISO 14044, 2006.
, Comparative environmental life cycle assessment of thermal insulation materials of buildings, Energy Build, vol.82, pp.466-481, 2014.
, Study of the use of olive by-products in animal feed in Tunisia, 1983.
, Resource consumption and emissions from olive oil production: a life cycle inventory case study in Cyprus, J. Cleaner Prod, vol.16, pp.809-821, 2008.
, Process for the preparation of glycerol carbonate
, Transesterification of propylene carbonate with methanol using Mg-AlCO 3 hydrotalcite as solid base catalyst, Indian J. Chem, vol.49, pp.1182-1188, 2010.
, Data quality management for life cycle inventories -an example of using data quality indicators, J. Cleaner Prod, vol.4, pp.167-174, 1996.
, Improvement of thermal properties of fired clays by introduction of vegetable matter, J. Building Phys, vol.34, pp.124-142, 2010.
, Lightweight bricks manufactured from water treatment sludge and rice husks, J. Hazard. Mater, vol.171, pp.76-82, 2009.
, Application of spent grains to increase porosity in bricks, Constr. Build. Mater, vol.19, pp.117-126, 2005.
, The use of recycled paper processing residues in making porous brick with reduced thermal conductivity, Ceram. Int, vol.35, pp.2625-2631, 2009.
, Properties of fired clay bricks with incorporated biomasses: cases of olive stone flour and wheat straw residues, Constr. Build. Mater, vol.102, pp.7-13, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01849714
, Preliminary study on the use of corn cob as pore forming agent in lightweight clay bricks: physical and mechanical features, J. Build. Eng, vol.5, pp.254-259, 2016.
, Thermal conductivity of traditional ceramics. Part I: Influence of bulk density and firing temperature, Ceram. Int, vol.36, pp.1951-1959, 2010.
, Thermal conductivity of traditional ceramics: Part II: Influence of mineralogical composition, Ceram. Int, vol.36, pp.2017-2024, 2010.
, Thermal conductivity of fired clays: effects of mineralogical and physical properties of the raw materials, Appl. Clay Sci, vol.49, pp.269-275, 2010.
, Influence of the mineral constituents and equilibrium moisture on the thermal conductivity of bricks, Zi-Annual: Annual for the Brick and Tile, Structural Ceramics and Clay Pipe Industries, pp.28-52, 1998.
, Soil thermal conductivity: effects of density, moisture, salt concentration, and organic matter, Soil Sci. Soc. Am. J, vol.64, pp.1285-1290, 2000.