Cit:Hagentoft.etal:2004

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Autor Hagentoft, C.-E. and Kalagasidis, A.S. and Adl-Zarrabi, B. and Roels, S. and Carmeliet, J. and Hens, H. and Grunewald, J. and Funk, M. and Becker, R. and Shamir, D. and Adan, O. and Brocken, H. and Kumaran, K. and Djebbar, R.
Jahr 2004
Titel Assessment Method of Numerical Prediction Models for Combined Heat, Air and Moisture Transfer in Building Components: Benchmarks for One-dimensional Cases
Bibtex @article {Hagentoft.etal:2004,

title = {Assessment Method of Numerical Prediction Models for Combined Heat, Air and Moisture Transfer in Building Components: Benchmarks for One-dimensional Cases}, journal = {Journal of Thermal Envelope and Building Science}, year = {2004}, volume = {27}, number = {4}, pages = {327-352}, author = {Hagentoft, C.-E. and Kalagasidis, A.S. and Adl-Zarrabi, B. and Roels, S. and Carmeliet, J. and Hens, H. and Grunewald, J. and Funk, M. and Becker, R. and Shamir, D. and Adan, O. and Brocken, H. and Kumaran, K. and Djebbar, R. } }

DOI https://doi.org/10.1177/1097196304042436
Link -
Bemerkungen in: Journal of Thermal Envelope and Building Science, Band: 27 (4), S. 327-352


Eintrag in der Bibliographie

[Hagentoft.etal:2004]Hagentoft, Carl-Eric; Kalagasidis, Angela Sasic; Adl-Zarrabi, Bijan; Roels, Staf; Carmeliet, Jan; Hens ,Hugo; Grunewald, John; Max Funk; Rachel Becker; Dina Shamir; Olaf Adan; Harold Brocken; Kumar Kumaran; Reda Djebbar (2004): Assessment Method of Numerical Prediction Models for Combined Heat, Air and Moisture Transfer in Building Components: Benchmarks for One-dimensional Cases. In: Journal of Thermal Envelope and Building Science, 27 (4), 327-352, https://doi.org/10.1177/109719630404243Link zu Google Scholar

Abstract[Bearbeiten]

The standardised Glaser method for calculation, prediction and evaluation of moisture performance is considered as rarely applicable. The present state of knowledge, analytical as well as experimental, concerning heat, air and moisture demands updating of standards. This paper presents five numerical benchmark cases for the quality assessment of simulation models for one-dimensional heat, air and moisture (HAM) transfer. In one case, the analytical solution is known and excellent agreement between several solutions from different universities and institutes is obtained. In the remaining four cases, consensus solutions have been found, with good agreement between different HAM models. The work presented here is an outcome of the EU-initiated project for standardisation of HAM calculation methods (HAMSTAD WP2).

Keywords[Bearbeiten]

Building Physics, Transport in Permeable Media, Building Materials, Building Performance