Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components: benchmarks for one-dimensional cases
Hagentoft, C.-E. Kalagasidis, A.S., Adl-Zarrabi, B., Roels, S., Carmeliet, J., Hens, H., Grunewald, J., Funk, M., Becker, R., Shamir, D., Adan, O., Brocken, H., Kumaran, K., Djebbar, R.
2004 Journal of Thermal Envelope and Building Science, 27(4):327-352
Hagentoft, C.-E. Kalagasidis, A.S., Adl-Zarrabi, B., Roels, S., Carmeliet, J., Hens, H., Grunewald, J., Funk, M., Becker, R., Shamir, D., Adan, O., Brocken, H., Kumaran, K., Djebbar, R., (2004), "Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components: benchmarks for one-dimensional cases", Journal of Thermal Envelope and Building Science, 27(4):327-352.
Abstract:
BUILDING ENVELOPES ARE constantly exposed to changes in indoor and outdoor climate. The variations in temperature, moisture and air pressure have a major impact on the physical state and performance of the building components. They represent factors that determine the overall durability and sustainability of the building envelope. In order to make a good design, all methods for the prediction of the hygro-thermal behaviour of the building components are issues of great interest in building engineering. The final result should be an envelope that sustains all internal and external environmental impact, and allows a good comfort for the in habitants.
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