Definition of Parameters Useful to Describe Dynamic Thermal Behavior of Hollow Bricks

Abstract Dynamic thermal behavior of hollow bricks is attracting much interest nowadays as there is much concern on energy performance of building envelope. In fact, high thermal inertia of outer walls provides mitigation of the daily heat wave, which reduces the cooling peak load and the related energy demand. Different approaches have been used to study dynamic thermal behavior within the papers available on unsteady heat transfer through hollow bricks. Actually, the usually employed methods for calculation of unsteady heat transfer through walls are based on the hypothesis that such walls are composed by homogeneous layers, so they are not suitable for many common building components. In this framework, a study on the dynamic thermal performance of hollow bricks is brought forth in the present paper. A critical review of available data from the literature is provided. Literature data are used to propose a parameter useful to predict dynamic thermal behavior. A finite-volume method is used to solve two-dimensional unsteady thermal fields in some standard bricks with different imposed temperature solicitations, with a numerical code developed by the authors. New results are used to check the effectiveness of the proposed parameters.

[1]  José María Sala,et al.  Methodology for the calculation of response factors through experimental tests and validation with simulation , 2010 .

[2]  Emanuele Habib,et al.  Dynamic thermal features of insulated concrete bricks , 2010 .

[3]  José María Sala,et al.  Static and dynamic thermal characterisation of a hollow brick wall: Tests and numerical analysis , 2008 .

[4]  H. Asan Numerical computation of time lags and decrement factors for different building materials , 2006 .

[5]  Luca Mauri Feasibility Analysis of Retrofit Strategies for the Achievement of NZEB Target on a Historic Building for Tertiary Use , 2016 .

[6]  Françoise Monchoux,et al.  Experimental unsteady characterization of heat transfer in a multi-layer wall including air layers—Application to vertically perforated bricks , 2006 .

[7]  H. Asan,et al.  Effects of Wall's thermophysical properties on time lag and decrement factor , 1998 .

[8]  Ákos Lakatos,et al.  Investigation of Heat Transfer Decrement of Wall Structures: Comparison of Measurements And Calculations , 2016 .

[9]  Natale Arcuri,et al.  Dynamic Thermal Characteristics of Opaque Building Components. A Proposal for the Extension of EN ISO 13786 , 2015 .

[10]  Eike Musall,et al.  Zero Energy Building A review of definitions and calculation methodologies , 2011 .

[11]  Nathan Mendes,et al.  Heat, air and moisture transfer through hollow porous blocks , 2009 .

[12]  Roberto De Lieto Vollaro,et al.  Thermal impact of a redeveloped area on localized urban microclimate: A case study in Rome , 2016 .

[13]  M. Krzaczek,et al.  Numerical analysis by FEM and analytical study of the dynamic thermal behavior of hollow bricks with different cavity concentration , 2011 .

[14]  Jiapeng He,et al.  Impact factors analysis on the thermal performance of hollow block wall , 2014 .

[15]  D. Kolokotsa,et al.  Evaluation of the performance gap in industrial, residential & tertiary near-Zero energy buildings , 2017 .