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CFD modelling of HAM transport in buildings: The importance of local indoor climate

Steeman, H. J., Janssens, A. and Paepe, M.
2006
Annex 41 meeting, UG Oct 2005 Paper A41-T1-B-05-8

Steeman, H. J., Janssens, A. and Paepe, M., (2006), "CFD modelling of HAM transport in buildings: The importance of local indoor climate", Annex 41 meeting, UG Oct 2005 Paper A41-T1-B-05-8.
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Author Information and Other Publications Notes
Steeman, H. J.
  1. Coupled simulation of heat and moisture transport in air and porous materials for the assessment of moisture related damage
  2. Evaluation of the different definitions of the convective mass transfer coefficient for water evaporation into air
  3. Modelling indoor air and hygrothermal wall interaction in building simulation: Comparison between CFD and a well-mixed zonal model
  4. On coupling 1D non-isothermal heat and mass transfer in porous materials with a multizone building energy simulation model
  5. On the applicability of the heat and mass transfer analogy in indoor air flows
  6. Sensitivity analysis of CFD coupled non-isothermal heat and moisture modelling  
Janssens, A.
Building Physics, Construction and Services http://aivwww.rug.ac.be/Onderzoeksbeleid/techno2002/EN/TW/I-TW01V02.htm
  1. Application of a new type of air and vapor retarder in a self-drying sloped roof with a cathedral ceiling
  2. Benchmark experiments for moisture transfer modelling in air and porous materials
  3. Condensation risk assessment
  4. Coupled simulation of heat and moisture transport in air and porous materials for the assessment of moisture related damage
  5. Evaluation of the different definitions of the convective mass transfer coefficient for water evaporation into air
  6. Experimental validation and sensitivity analysis of a coupled BES-HAM model
  7. Heat and moisture response of vented and compact cathedral ceilings: a test house evaluation
  8. Impact of whole-building hygrothermal modelling on the assessment of indoor climate in a library building
  9. Inquiry on HAMCAT codes
  10. Modelling indoor air and hygrothermal wall interaction in building simulation: Comparison between CFD and a well-mixed zonal model
  11. On coupling 1D non-isothermal heat and mass transfer in porous materials with a multizone building energy simulation model
  12. On the applicability of the heat and mass transfer analogy in indoor air flows
  13. Reliable control of interstitial condensation in lightweight roof systems, calculation and assessment methods
  14. Sensitivity analysis of CFD coupled non-isothermal heat and moisture modelling  
Paepe, M.
  1. Benchmark experiments for moisture transfer modelling in air and porous materials
  2. Coupled simulation of heat and moisture transport in air and porous materials for the assessment of moisture related damage
  3. Evaluation of the different definitions of the convective mass transfer coefficient for water evaporation into air
  4. Experimental validation and sensitivity analysis of a coupled BES-HAM model
  5. Impact of whole-building hygrothermal modelling on the assessment of indoor climate in a library building
  6. On coupling 1D non-isothermal heat and mass transfer in porous materials with a multizone building energy simulation model
  7. On the applicability of the heat and mass transfer analogy in indoor air flows
  8. Sensitivity analysis of CFD coupled non-isothermal heat and moisture modelling  


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