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Inquiry on HAMCAT codes

Hens, H. and Janssens, A.
1993
International Energy Agency, Heat, Air and Moisiture Transfer in Insulated Envelope Parts, Report Annex 24, Task 1, Modelling
LATENITE hygrothermal model, 2-D


Hens, H. and Janssens, A., (1993), Inquiry on HAMCAT codes, International Energy Agency, Heat, Air and Moisiture Transfer in Insulated Envelope Parts, Report Annex 24, Task 1, Modelling.
Abstract:
Annex 24 on Heat-Air- Moisture Transport in Insulated Envelope Parts (HAMTIE). It divided the existing HAM models into 9 types, ranging from steady state heat conduction and vapour diffusion models to transient heat, air and moisture transfer models.

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Author Information and Other Publications Notes
Hens, H.
Department of Civil Engineering, Laboratory of Building Physics, Catholic University of Leuven, Leuven, Belgium http://www.bwk.kuleuven.ac.be/bwf/e_hugohens.htm
  1. A comparison of different techniques to quantify moisture content profiles in porous building materials
  2. Application of a new type of air and vapor retarder in a self-drying sloped roof with a cathedral ceiling
  3. Building envelopes in a holistic perspective
  4. Condensation risk assessment
  5. Determination of the liquid water diffusivity from transient moisture transfer experiments
  6. Evaluating the thermal performance of active envelopes
  7. Fungal defacement in buildings: a performance related approach
  8. Heat and moisture response of vented and compact cathedral ceilings: a test house evaluation
  9. Heat, air and moisture transfer in insulated envelope parts. Final Report, Volume 1, Modelling
  10. Heat-air-moisture design of masonry cavity walls: theoretical and experimental results and practice
  11. Hygric properties of a new humidity controlled vapor retarder
  12. IEA Annex 14: Condensation and Energy
  13. Interstitial condensation due to air leakage: a sensitivity analysis
  14. Microscopic analysis of imbibition processes in oolitic limestone
  15. Modeling. Final Report
  16. Performance prediction for masonry walls with EIFS using calculation procedures and laboratory testing
  17. Performance-based development of a thermally insulated pitched roof system
  18. Pitched roofs, heat-air-moisture transport in tiled and slated roofs with the thermal insulation at rafter level
  19. Simulating non-isothermal water vapour transfer: an experimental validation on multi-layered building components
  20. The influence of soil moisture in the unsaturated zone on the heat loss from buildings via the ground  
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. CFD modelling of HAM transport in buildings: The importance of local indoor climate
  4. Condensation risk assessment
  5. Coupled simulation of heat and moisture transport in air and porous materials for the assessment of moisture related damage
  6. Evaluation of the different definitions of the convective mass transfer coefficient for water evaporation into air
  7. Experimental validation and sensitivity analysis of a coupled BES-HAM model
  8. Heat and moisture response of vented and compact cathedral ceilings: a test house evaluation
  9. Impact of whole-building hygrothermal modelling on the assessment of indoor climate in a library building
  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  



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