Conceptual Reference Database for Building Envelope Research Prev
Next
Related Concept
  • Moisture buffering



    • Related Articles
  • IBPSA: International Building Performance Simulation Association
  • Minibat cell Experimental setup
  • Whole Building Heat, Air and Moisture Response (MOIST-ENG) - Annex 41-IEA

    		• Concept:

    Whole building HAM

    Annex 41
    Related References
    --------
    A comparison of empirical indoor relative humidity models with measured data, by Cornick, S. M., Kumaran, M. K., 2008
    --------
    An experimental data set for benchmarking 1-D, transient heat and moisture transfer models of hygroscopic building materials. Part II: Experimental, numerical and analytical data, by Talukdar, P., Olutmayin, S. O., Osanyintola, O. F. and Simonson, C. J., 2007
    --------
    An integrated zonal model to predict transient indoor humidity distribution, by Wurtz, E., Haghighat, F., Mora, L., Mendonca, K. C., Zhao, H., Maalouf, C. and Bourdoukan, P., 2006
    --------
    Experimental and numerical study on indoor temperature and humidity with free water surface, by Liu, J., Aizawa, Y. and Yoshino, H., 2005
    --------
    Heat and mass transfer between indoor air and a permeable and hygroscopic building envelope: part II --verification and numerical studies, by Simonson, C. J., Salonvaara, M., Ojanen, T., 2004
    --------
    Humidity buffering of interior spaces by porous,absorbent insulation, part of hygrothermal properties of alternative insulation materials, by Padfield, T., 1999
    --------
    Modelling indoor air and hygrothermal wall interaction in building simulation: Comparison between CFD and a well-mixed zonal model, by Steeman, H. J., Janssens, A., Carmelietc, J. and Paepe M., 2009
    --------
    On coupling 1D non-isothermal heat and mass transfer in porous materials with a multizone building energy simulation model, by Steeman, M., Janssens, A., Steeman, H. J., Belleghem, M. V. and Paepe, M., 2010
    --------
    Simulation of indoor temperature and humidity conditions including hygrothermal interactions with the building envelope, by Kščnzel, H. M., Holm, A., Zirkelbach, D. and Karagiozis, A. N., 2005
    --------
    The adaptive coupling of heat and air flow modelling within dynamic whole-building simulation, by Beausoleil-morrison, I., 2000
    --------
    The hygrothermal behaviour of rooms: combining thermal building simulation and hygrothermal envelope calculation, by Holm, A., Kuenzel, H. M. and Sedlbauer, K., 2003
    --------
    Tools for performance simulation of heat, air and moisture conditions of whole buildings, by Woloszyn, M. and Rode, C., 2008
    --------
    Whole-building Hygrothermal Simulation Model, by Rode, C., Grau, K., 2003



    CRDBER, at CBS, BCEE, ENCS, Concordia,