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Modelling of Moisture Transfer in Structures-III. A Comparison between the Numerical Model SMAHT and Field Data

Cunningham, M. J.
1996
Building and Environment, 29(2), 191-196

Cunningham, M. J., (1996), "Modelling of Moisture Transfer in Structures-III. A Comparison between the Numerical Model SMAHT and Field Data", Building and Environment, 29(2), 191-196.
Abstract:
A comparison is made between the predictions of a numerical model of structural moisture behavior and the experimental results from afield study in which the moisture performance of roofs of several newly constructed houses was monitored over one year of occupation in different New Zealand climate zones. There was good agreement between the model and the experimental results, with a maximum standard deviation of difference of 1.3% moisture content. Most of the difference is due to limitations in measurements rather than to deficiencies in the model. Both the field study and the model confirmed that air infiltration was a dominating influence in the moisture transfer.

Modelling of moisture transfer in structures¡ªI. A description of a finite-difference nodal model

M. J. Cunningham

Building and Environment, Volume 25, Issue 1 , 1990, Pages 55-61

The physical, numerical and computational basis of a 1- 2- or 3-D time-dependent finite-difference nodal model for heat and moisture transfer in buildings is described. The model is designed to be very flexible so as to be able to analyse a wide variety of geometries and circumstances. The solution procedure is fully implicit with non-linear processes such as condensation, radiation and convection being described in terms of an effective conductance at each time step. The model is iterated at each time step to arrive at a good estimate of the updated value of these effective conductances. The performance of this model is analysed in a later paper.

Modelling of moisture transfer in structures¡ªII. A comparison of a numerical model, an analytical model and some experimental results

M. J. Cunninghama

Building and Environment, Volume 25, Issue 2 , 1990, Pages 85-94

The results of comparing the predictions of an analytical and a numerical model against experimental data on the moisture performance of four flat roofs is presented. The experimental data was obtained by placing one metre square roof specimens between two controlled climate chambers and subjected them to steady-state driving conditions. The agreement with the experimental data shown by both models is good, the numerical model showing the ability to follow fine detail in the moisture behaviour. The results suggest that the concepts rising from the analytical model are useful ones, and that the numerical model should perform well under field conditions.
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Author Information and Other Publications Notes
Cunningham, M. J.
BPANZ, Moonshine Road, Judgeford, Private Rag 50908, Porirua, New Zealand. Department of Building Physics at Chalmers University of Technology, G6teborg, Sweden
  1. A field study of the moisture performance of roofs of occupied newly constructed timber framed houses
  2. A prarmeteric study of wall moisture contents using a revised variable indoor relative humidity version of the "MOIST" transient heat and moisture transfer model
  3. Effective penetration depth and effective resistance in moisture transfer
  4. Inferring ventilation and moisture release rates from field psychrometric data only using system identification techniques
  5. Predicting psychrometric conditions in biocontaminant microenvironments with a microclimate heat and moisture transfer model - description and field comparison
  6. The building volume with hygroscopic materials--an analytical study of a classical building physics problem
  7. Using hygroscopic damping of relative humidity and vapour pressure fluctuations to measure room ventilation rates  


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