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Year 2014, , 14 - 27, 01.03.2014
https://doi.org/10.24107/ijeas.251215

Abstract

References

  • [1] Piaia, J.C.Z., Cheriaf, M., Rocha, J.C. and Mustelier, N.L., Measurements of water penetration and leakage in masonry wall: Experimental results and numerical simulation. Build. Environ., 61, 18- 26, 2013.
  • [2] Wyrwal, J. and Marynowicz, A., Vapour condensation and moisture accumulation in porous building wall. Build. Environ., 37(3), 313-318, 2002.
  • [3] Mlakar, J. and Strankar, J., Temperature and humidity profiles in passive-house building blocks. Build. Environ., 60, 185-193, 2013.
  • [4] Dal Pont, S., Lien entre la perméabilité et l’endommagement dans les bétons à haute température, PhD thesis, Ecole Natl. Ponts Chaussées, France, 2004.
  • [5] Glaser, H., Grafisches vehren zur untersuchung von diffusion-vorgngen, Kaptechnik, 11, 345- 355, 1959.
  • [6] Abahri, K., Belarbi, R. and Trabelsi, A., Contribution to analytical and numerical study of combined heat and moisture transfers in porous building materials. Build. Environ. 46 (7), 1354 - 1360, 2011.
  • [7] Talukdar, P., Olutmayin, S.O., Osanyintola, O.F. and Simonson C.J., An experimental data set for benchmarking 1-D, transient heat and moisture transfer models of hygroscopic building materials. Part I: Experimental facility and material property data. Int. J. Heat Mass Transf., 50, 4527–4539, 2007
  • [8] Hagentoft, C.E., Kalagasidis, A.S., Adl-Zarrabi, B., Roels, S., Carmeliet, J., Hens, H. ‘and al’, Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components, benchmarks for one-dimensional cases, J. Therm. Environ. Build. Sci., 27 (4), 327– 352, 2004.
  • [9] Kunzel, H.M. and Kiessl, K., Calculation of heat and moisture transfer in exposed building components, Int. J. Heat Mass Transf., 40 (1), 159–167, 1997.
  • [10] Haupl, P., Grunewald, J., Fechner, H. and Stopp, H., Coupled heat air and moisture transfer in building structures, Int. J. Heat Mass Transf., 40 (7), 1633–1642, 1997. , [11] Bories, S., Transferts de chaleur et de masse dans les matériaux, analyse critique des différents modèles mathématiques utilisés, L’humidité dans le bâtiment, Séminaire de l’UNESCO, France, 1982, 23-25 Novembre, p.13-32.
  • [12] Whitaker, S., Simultaneous heat, mass and momentum transfer in porous media – A theory of drying in porous media, Adv. Heat Transf., 13, 119-200, 1977.
  • [13] Chen, Z.Q. and Shi, M.H., Study of heat and moisture migration properties in porous building materials, Appl. Therm. Engineering, 25, 61-71, 2005.
  • [14] Philip, J.R. and De-Vries, D.A., Moisture movement in porous materials under temperature gradients, Transactions of the American Geophysical Union, 38(2), 222-232, 1957.
  • [15] Crausse, P., Laurent, J.P. and Perrin, B., Influence des phénomènes d’hystérésis sur les propriétés hydriques de matériaux poreux, Rev. Gen. Therm., 35, 95-106, 1996.
  • [16] Mendes, N., Philippi, P.C. and Lamberts, R., A new mathematical method to solve highly coupled equations of heat and mass transfer in porous media, Int. J. Heat Mass Transf., 45, 509-518, 2002.
  • [17] Crausse, P., Etude fondamentale des transferts couplés de chaleur et d’humidité en milieu poreux non saturé, PhD thesis, Institut Natl. Polytech., Toulouse, France, 1983.
  • [18] Salagnac, P., Glouannec, P. and Lecharpentier, D., Numerical modeling of heat and mass transfer in porous medium during combined hot air, infrared and microwaves drying, Int. J. Heat Mass Transf., 47, 4479–4489, 2004.
  • [19] Belhamri, A., Etude des transferts de chaleur et de masse à l’interface d’un milieu poreux au cours du séchage, PhD thesis, University Poitiers, France, 1992.
  • [20] Laghcha, A., Contribution à l’étude des transferts gazeux et liquide au sein des parois en béton endommagées sous sollicitation thermo-hydrique. PhD thesis, Ecole Dr. Sci. Ing., Lyon, France, 2006.
  • [21] Billard, Y., Contribution à l’étude des transferts de fluides au sein d’une paroi en béton. PhD thesis, Ecole Dr. Sci. Ing., Lyon, France, 2003.
  • [22] Da Chen, Modélisation du comportement hydromécanique d’un mortier sous compression et dessiccation, PhD thesis, University Lille, France, 2005.
  • [23] Catalogue of material properties, Rep. Annex XIV, Volume 3: Condensation and Energy, International Energy Agency, Energy Conservation in Building and Community Systems, 1991.
  • [24] Picandet, V., Influence d’un endommagement mécanique sur la perméabilité et sur la diffusivité hydrique des bétons, PhD thesis, Ecole Dr. Méc., Therm. et G. Civil, Nantes, France, 2001

EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR

Year 2014, , 14 - 27, 01.03.2014
https://doi.org/10.24107/ijeas.251215

Abstract

In spite of the broad use of cement mortar in construction field, its hygrothermal behavior is not clarified, up to now, satisfactorily, especially under the particular conditions of its use. A study is carried out on a block of cement mortar subjected to variations in temperature and humidity. Numerical and experimental approaches are used. For both approaches, the ambient conditions have a direct impact on the behavior of the wall. In parallel to the experimental approach, a model representative of heat and mass transfer, in multiphasic medium (cement mortar), is developed in order to predict hygrothermal behavior of the wall. This model is validated by confrontation of simulated and experimental results. This study would enable us to make an adequate design of the construction walls according to the climatic parameters

References

  • [1] Piaia, J.C.Z., Cheriaf, M., Rocha, J.C. and Mustelier, N.L., Measurements of water penetration and leakage in masonry wall: Experimental results and numerical simulation. Build. Environ., 61, 18- 26, 2013.
  • [2] Wyrwal, J. and Marynowicz, A., Vapour condensation and moisture accumulation in porous building wall. Build. Environ., 37(3), 313-318, 2002.
  • [3] Mlakar, J. and Strankar, J., Temperature and humidity profiles in passive-house building blocks. Build. Environ., 60, 185-193, 2013.
  • [4] Dal Pont, S., Lien entre la perméabilité et l’endommagement dans les bétons à haute température, PhD thesis, Ecole Natl. Ponts Chaussées, France, 2004.
  • [5] Glaser, H., Grafisches vehren zur untersuchung von diffusion-vorgngen, Kaptechnik, 11, 345- 355, 1959.
  • [6] Abahri, K., Belarbi, R. and Trabelsi, A., Contribution to analytical and numerical study of combined heat and moisture transfers in porous building materials. Build. Environ. 46 (7), 1354 - 1360, 2011.
  • [7] Talukdar, P., Olutmayin, S.O., Osanyintola, O.F. and Simonson C.J., An experimental data set for benchmarking 1-D, transient heat and moisture transfer models of hygroscopic building materials. Part I: Experimental facility and material property data. Int. J. Heat Mass Transf., 50, 4527–4539, 2007
  • [8] Hagentoft, C.E., Kalagasidis, A.S., Adl-Zarrabi, B., Roels, S., Carmeliet, J., Hens, H. ‘and al’, Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components, benchmarks for one-dimensional cases, J. Therm. Environ. Build. Sci., 27 (4), 327– 352, 2004.
  • [9] Kunzel, H.M. and Kiessl, K., Calculation of heat and moisture transfer in exposed building components, Int. J. Heat Mass Transf., 40 (1), 159–167, 1997.
  • [10] Haupl, P., Grunewald, J., Fechner, H. and Stopp, H., Coupled heat air and moisture transfer in building structures, Int. J. Heat Mass Transf., 40 (7), 1633–1642, 1997. , [11] Bories, S., Transferts de chaleur et de masse dans les matériaux, analyse critique des différents modèles mathématiques utilisés, L’humidité dans le bâtiment, Séminaire de l’UNESCO, France, 1982, 23-25 Novembre, p.13-32.
  • [12] Whitaker, S., Simultaneous heat, mass and momentum transfer in porous media – A theory of drying in porous media, Adv. Heat Transf., 13, 119-200, 1977.
  • [13] Chen, Z.Q. and Shi, M.H., Study of heat and moisture migration properties in porous building materials, Appl. Therm. Engineering, 25, 61-71, 2005.
  • [14] Philip, J.R. and De-Vries, D.A., Moisture movement in porous materials under temperature gradients, Transactions of the American Geophysical Union, 38(2), 222-232, 1957.
  • [15] Crausse, P., Laurent, J.P. and Perrin, B., Influence des phénomènes d’hystérésis sur les propriétés hydriques de matériaux poreux, Rev. Gen. Therm., 35, 95-106, 1996.
  • [16] Mendes, N., Philippi, P.C. and Lamberts, R., A new mathematical method to solve highly coupled equations of heat and mass transfer in porous media, Int. J. Heat Mass Transf., 45, 509-518, 2002.
  • [17] Crausse, P., Etude fondamentale des transferts couplés de chaleur et d’humidité en milieu poreux non saturé, PhD thesis, Institut Natl. Polytech., Toulouse, France, 1983.
  • [18] Salagnac, P., Glouannec, P. and Lecharpentier, D., Numerical modeling of heat and mass transfer in porous medium during combined hot air, infrared and microwaves drying, Int. J. Heat Mass Transf., 47, 4479–4489, 2004.
  • [19] Belhamri, A., Etude des transferts de chaleur et de masse à l’interface d’un milieu poreux au cours du séchage, PhD thesis, University Poitiers, France, 1992.
  • [20] Laghcha, A., Contribution à l’étude des transferts gazeux et liquide au sein des parois en béton endommagées sous sollicitation thermo-hydrique. PhD thesis, Ecole Dr. Sci. Ing., Lyon, France, 2006.
  • [21] Billard, Y., Contribution à l’étude des transferts de fluides au sein d’une paroi en béton. PhD thesis, Ecole Dr. Sci. Ing., Lyon, France, 2003.
  • [22] Da Chen, Modélisation du comportement hydromécanique d’un mortier sous compression et dessiccation, PhD thesis, University Lille, France, 2005.
  • [23] Catalogue of material properties, Rep. Annex XIV, Volume 3: Condensation and Energy, International Energy Agency, Energy Conservation in Building and Community Systems, 1991.
  • [24] Picandet, V., Influence d’un endommagement mécanique sur la perméabilité et sur la diffusivité hydrique des bétons, PhD thesis, Ecole Dr. Méc., Therm. et G. Civil, Nantes, France, 2001
There are 23 citations in total.

Details

Other ID JA66CF24CG
Journal Section Articles
Authors

A. Chikhi This is me

A. Belhamri This is me

P. Glouannec This is me

A. Magueresse This is me

Publication Date March 1, 2014
Published in Issue Year 2014

Cite

APA Chikhi, A., Belhamri, A., Glouannec, P., Magueresse, A. (2014). EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR. International Journal of Engineering and Applied Sciences, 6(1), 14-27. https://doi.org/10.24107/ijeas.251215
AMA Chikhi A, Belhamri A, Glouannec P, Magueresse A. EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR. IJEAS. March 2014;6(1):14-27. doi:10.24107/ijeas.251215
Chicago Chikhi, A., A. Belhamri, P. Glouannec, and A. Magueresse. “EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR”. International Journal of Engineering and Applied Sciences 6, no. 1 (March 2014): 14-27. https://doi.org/10.24107/ijeas.251215.
EndNote Chikhi A, Belhamri A, Glouannec P, Magueresse A (March 1, 2014) EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR. International Journal of Engineering and Applied Sciences 6 1 14–27.
IEEE A. Chikhi, A. Belhamri, P. Glouannec, and A. Magueresse, “EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR”, IJEAS, vol. 6, no. 1, pp. 14–27, 2014, doi: 10.24107/ijeas.251215.
ISNAD Chikhi, A. et al. “EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR”. International Journal of Engineering and Applied Sciences 6/1 (March 2014), 14-27. https://doi.org/10.24107/ijeas.251215.
JAMA Chikhi A, Belhamri A, Glouannec P, Magueresse A. EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR. IJEAS. 2014;6:14–27.
MLA Chikhi, A. et al. “EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR”. International Journal of Engineering and Applied Sciences, vol. 6, no. 1, 2014, pp. 14-27, doi:10.24107/ijeas.251215.
Vancouver Chikhi A, Belhamri A, Glouannec P, Magueresse A. EXPERIMENTAL STUDY AND MODELING OF COUPLED HEAT AND MOISTURE TRANSFERS IN CEMENT MORTAR. IJEAS. 2014;6(1):14-27.

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