Influence of the type of lightweight clay brick on the equivalent thermal transmittance of different types of façades on buildings

Autor: Morales Ortiz, María del PilarMuñoz Velasco, PedroJuárez Castelló, Manuel CelsoMendívil Giro, Manuel Antonio; Olasolo Alonso, Pablo; 

Tipo de documento: Artículo de revista

Revista: Materiales de Construccion. ISSN: 0465-2746. Año: 2016. Número: 323. Volumen: 66.

Texto completo open access 

CIRC: GRUPO A

Referencias:

  • Theodosiou, T.G., Papadopoulos, A.M., The impact of thermal bridges on the energy demand of buildings with double brick wall constructions (2007) Energ. Buildings, 40 (11), pp. 2083-2089
  • (2013) Energy, Transport and Environment Indicators, , http://ec.europa.eu/eurostat/documents/3930297/5968878/KS-DK-13-001-EN.PDF, (online data code: nrg-100a)
  • Raimondo, M., Dondi, M., Mazzanti, F., Stefanizzi, P., Bondi, P., Equilibrium moisture content of clay bricks: The influence of the porous structure (2005) Build. Environ., 42 (2), pp. 926-932
  • Antar Mohamed, A., Thermal radiation role in conjugate heat transfer across a multiple-cavity building brick (2010) Energy, 35 (8), pp. 3508-3516
  • García, X., (2003) Idoneidad de Los Cerramientos Monocapa para Viviendas Bioclimáticas en Emplazamientos de Elevada Severidad Climática, Universidad Pontíficia Comillas de Madrid, , http://www.iit.upcomillas.es/publicaciones/mostrar_publicacion_working_paper.php.en?id=66, Instituto de Investigación Tecnológica
  • Morales, M.P., Juárez, M.C., López-Ochoa, L.M., Doménech, J., Study of the geometry of a voided clay brick using rectangular perforations to optimize its thermal properties (2010) Appl. Therm. Eng., 31 (11-12), pp. 2063-2065
  • Sastre, V., Bloques cerámicos de alto aislamiento térmico, Termoarcilla ECO (2008) Con Arquitectura, , http://www.conarquitectura.com/articulos/24-10-2012-12-50-07-26.pdf, (Accessed February 2016)
  • (2005) Investigación de Las Condiciones del Bloque Termoarcilla para el Cumplimiento de Las Exigencias del Nuevo CTE, , www.termoarcilla.com, Propiedades térmicas
  • Li, L.P., Wu, Z.G., He, Y.L., Lauriat, G., Tao, W.Q., Optimization of the configuration of 290×140×90 hollow clay bricks with 3-D numerical simulation by finite volume method (2008) Energ. Buildings, 40 (10), pp. 1790-1798
  • Morales, M.P., Juárez, M.C., Muñoz, P., Gómez, J.A., Study of the geometry of a voided clay brick using non-rectangular perforations to optimise its thermal properties (2011) Energ. Buildings, 43 (9), pp. 2494-2498
  • Lourenco, P.B., Vasconcelos, G., Medeiros, P., Gouveia, J., Vertically perforated clay brick masonry for loadbearing and non-loadbearing masonry walls (2010) Constr. Build. Mater., 24, pp. 2317-2330
  • Del Coz Díaz, J.J., Neto, P.J.G., Sierra, J.L.S., Biempica, C.B., Nonlinear thermal optimization of external light concrete multi-holed brick walls by finite element method (2008) Int. J. Heat Mass Trans., 51, pp. 1530-1541
  • Li, L.P., Wu, Z.G., He, Y.L., Lauriat, G., Tao, W.Q., Numerical thermal optimization of the configuration of multi-holed clay bricks used for constructing building walls by the finite volume method (2008) Int. J. Heat Mass Trans., 51, pp. 3669-3682
  • Morales, M.P., Juárez, M.C., López-Ochoa, L.M., Muñoz, P., Influence of tongue and groove system on the thermal properties of large-format voided clay bricks for single-leaf walls (2012) Constr. Build. Mater., 30, pp. 169-173
  • Ghazi Wakili, K., Tanner, Ch., U-value of a dried wall made of perforated porous clay bricks: Hot box measurement versus numerical analysis (2003) Energ. Buildings, 35 (7), pp. 675-680
  • Juárez, M.C., Morales, M.P., Muñoz, P., Gómez, J.A., Influence of horizontal joint on the thermal properties of single-leaf walls with lightweight clay bricks (2012) Energ. Buildings, 49, pp. 362-366
  • Morales, M.P., Juárez, M.C., Muñoz, P., Mendívil, M.A., Ruiz, J.A., Possibilities for improving the equivalent thermal transmittance of single-leaf walls for buildings (2014) Energ. Buildings, 69, pp. 473-480
  • Luciana, C.S., Eponina, H.C., Hespanhol, H.M., Miranda Reis, D.M., Tavares, N.G., Célia, R., Bergamasco, R., Characterization of ceramic bricks incorporated with textile laundry sludge (2012) Ceram. Int., 38 (2), pp. 951-959
  • Alonso-Santurde, R., Coz, A., Viguri, J.R., Andrés, A., Recycling of foundry by-products in the ceramic industry: Green and core sand in clay bricks (2012) Constr. Build. Mater., 27, pp. 97-106
  • Bilgin, N., Yeprem, H.A., Arslan, S., Bilgin, A., Günay, E., Marsoglu, M., Use of waste marble powder in brick industry (2012) Constr. Build. Mater., 29, pp. 449-457
  • Muñoz, P., Juárez, M.C., Morales, M.P., Mendívil, M.A., Improving the thermal transmittance of singlebrick wall built of clay bricks lightened with paper pulp (2013) Energ. Buildings, 59, pp. 171-180
  • Raut, S.P., Ralegaonkar, R.V., Mandavgane, S.A., Development of sustainable construction material using industrial and agricultural solid waste: A review of wastecreate bricks (2011) Constr. Build. Mater., 25, pp. 4037-4042
  • (2006) Código Técnico de la Edificación. Documento Básico. Ahorro de Energía, , http://www.codigotecnico.org, CTE-DB-HE (Accessed February 2016)
  • (2009) Reglamento Particular de la Marca AENOR para Piezas de Arcilla Cocida para Fábricas a Revestir, , http://www.aenor.es/documentos/certificacion/reglamentos/w_RP_34-14_2009-06-01.pdf, 34-14 (Accessed February 2016)
  • European Standard, EN 12939:2000, Thermal Performance of Building Materials and Products - Determination of Thermal Resistance by Means of Guarded Hot Plate and Heat Flow Meter Methods - Thick Products of High and Medium Thermal Resistance, , European Committee for Standardization
  • European Standard, EN 12664:2001, Thermal Performance of Building Materials and Products - Determination of Thermal Resistance by Means of Guarded Hot Plate and Heat Flow Meter Methods - Dry and Moist Products of Medium and Low Thermal Resistance, , European Committee for Standardization
  • European Standard, EN 1745:2002, "
  • Masonry and Masonry Products. Methods for Determining Design Thermal Values"
  • Building Components and Building Elements. Thermal Resistance and Thermal Transmittance. Calculation Method, , 6946:1996
  • Thermal Bridges in Building Construction. Heat Flows and Surface Temperatures. Part 1: General Calculation Methods, , 10 211-1:1995
  • EN ISO 10 211-2:2002, "
  • Thermal Bridges in Building Construction. Heat Flows and Surface Temperatures. Part 2: Thermal Linear Bridges"
  • International Standard, ISO 10456:2007 "
  • Building Materials and Products. Procedures for Determining Declared and Design Thermal Values"
  • , , http://www.iso.org/iso/catalogue_detail.htm%3Fcsnumber=40966, (Accessed February 2016)
  • (2006) Thermal Insulation - Determination of Steady-state Thermal Transmission Properties - Calibrated and Guarded Hotbox
  • (2005) Multiphysics Modeling and Engineering Simulation Software, , http://www.comsol.com, 4.2a [CD ROM] COMSOL AB (Accessed February 2016)
  • CerámicaUtzubar, , https://www.interempre-sas.net/Construccion/FeriaVirtual/Producto-Termoarcillas-Utzubar-Bloque-88514.html, (Accessed February 2016)
  • Vivancos, J.L., Soto, J., Pérez, I., Ros-Lis, J.V., Martínez-Máñez, R., A new model based on experimental results for the thermal characterization of bricks (2009) Build. Environ., 44 (5), pp. 1047-1052
  • Thermoacustical para la Edificación, , http://www.wurth.es/media/pdf_folletos/thermoacustical.pdf, (Accessed February 2016)
  • Cuantificación de la eficiencia de la fachada cerámica ventilada mediante técnicas de la mecánica de fluidos computacional (2011) Bol. Soc. Esp. Ceram. Vidr., 50 (2), pp. 99-108
  • Mandilaras, I., Atsonios, I., Zannis, G., Founti, M., Thermal performance of a building envelope incorporating ETICS with vacuum insulation panels and EPSI (2014) Energ. Buildings, 85, pp. 654-665. , 2014
  • Barreira, E., De Freitas, V.P., Experimental study of the hygrothermal behaviour of external thermal insulation composite systems (ETICS) (2013) Build. Environ., 63, pp. 31-39
  • Ventajas técnicas de los sistemas de aislamiento de fachadas por el exterior. Técnica Constructiva (2011) Colegio de Aparejadores, Arquitectos Técnicos e Ingenieros de la Edificación de Valencia, , http://www.caatvalencia.es/articulos/2012/VIR02125.pdf, (Accessed February 2016)
  • Thermal Insulation Products for Buildings-Factory Made Mineral Wool (MW) Products-Specification, , 13162:2009
  • Specification for Mortar for Masonry-Part 2: Masonry Mortar, , 998-2:2012
  • Soluciones Constructivas, , http://www.ceramicamarlo.com/es/soluciones-constructivas-familia.asp?id_tipo=3, (Accessed February 2016)
  • Saint Gobain, , http://www.isover.es/Aislamiento-en-la-Edificacion/Aplicaciones/Aplicaciones-Edificacion-Residencial/PARTICIONES-INTERIORES-VERTICALES-Y-MEDIANERIAS/Elementos-de-dos-hojas.-Tipo-2./Elementos-dos-hojas.-Tipo-2-P3.2/Descripcion, (Accessed February 2016)