Numerical modelling and experimental study of heat and moisture properties of a wall based on date palm fibers concrete

Tarek Alioua; Boudjemaa Agoudjil; Abderrahim Boudenne

doi:10.1051/e3sconf/20198502009

All issues

Volume 85 (2019)

E3S Web Conf., 85 (2019) 02009

References

Open Access

Issue		E3S Web Conf. Volume 85, 2019 EENVIRO 2018 – Sustainable Solutions for Energy and Environment


Article Number		02009
Number of page(s)		6
Section		Computational Fluid Dynamics in Built Environment
DOI		https://doi.org/10.1051/e3sconf/20198502009
Published online		22 February 2019

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[1] M. Rahim, O. Douzane, A.T. Le, G. Promis, B. Laidoudi, A. Crigny, B. Dupre, T. Langlet, Energy and Buildings, 88, 7 (2015) [CrossRef] [Google Scholar]

[2] B. Haba, B. Agoudjil, A. Boudenne, K Benzarti, Construction and Building Materials, 154, 9 (2017) [CrossRef] [Google Scholar]

[3] J.R. Philip, Journal of meteorology, 14(4), 13 (1957) [CrossRef] [Google Scholar]

[4] N. Mendes, I. Ridley, R. Lamberts, P.C. Philippi, K. Budag, In Building Simulation Conference-IBPSA, 99, 7 (1999) [Google Scholar]

[5] N. Mendes, F.C. Winkelmann, R. Lamberts, P.C. Philippi, Energy and Buildings, 35(7), 14 (2003) [CrossRef] [Google Scholar]

[6] H.M Künzel, Simultaneous heat and moisture transport in building components. One-and two-dimensional calculation using simple parameters. IRB-Verlag Stuttgart, 65 (1995) [Google Scholar]

[7] Y. Aït Ouméziane, Evaluation des performances hygrothermiques d’une paroi par simulation numérique: application aux parois en béton de chanvre (Doctoral dissertation, Rennes, INSA), 351 (2013) [Google Scholar]

[8] D. Lelièvre, Simulation numérique des transferts de chaleur et d’humidité dans une paroi multicouche de bâtiment en matériaux biosourcés (Doctoral dissertation, Lorient), 183 (2015) [Google Scholar]

[9] C. E. Hagentoft, Report R-02: 8. Gothenburg, Department of Building Physics, Chalmers University of Technology, 5 (2002) [Google Scholar]

[10] A. V. Luikov, Heat and mass transfer in capillary-porous bodies. In Advances in heat transfer. Elsevier. 1, 62 (1964) [Google Scholar]

[11] C. E. Hagentoft, A. S. Kalagasidis, B. Adl-Zarrabi, S. Roels, J. Carmeliet, H. Hens, & O. Adan, Journal of thermal envelope and building science, 27(4), 26 (2004) [CrossRef] [Google Scholar]

[12] A.J.P.M. Goesten, Heat, Air and Moisture transport in Building Constructions, Department of building environment, Eindhoven university of technology, 37 (2015) [Google Scholar]

[13] Multiphysics, C. O. M. S. O. L. Version 3.5 a. User’s guide, 624 (2005) [Google Scholar]

[14] T. Colinart, P. Glouannec, T. Pierre, P. Chauvelon, & A. Magueresse, Buildings, 3(1), 11 (2013) [CrossRef] [Google Scholar]

[15] Y. A. Oumeziane, M. Bart, S. Moissette, & C. Lanos, Transport in porous media, 103(3) 19 (2014) [Google Scholar]

[16] Y. Aït Oumeziane, S. Moissette, M. Bart, F. Collet, S. Pretot, C. Lanos, Journal of Building Performance Simulation, 10(3), 16 (2017) [Google Scholar]

[17] C. Maalouf, A. T. Le, S. B. Umurigirwa, M. Lachi, & O. Douzane, Energy and buildings, 77, 10 (2014) [CrossRef] [Google Scholar]