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Moisture Buffer Value of Materials in Buildings

Rode, C., Peuhkuri, R., Hansen, K. K., Time, B., Svennberg, K., Arfvidsson, J. and Ojanen, T.
2005
7th Nordic Building Physics Symposium, Reykjavik, Iceland, pp. 108-115.


Rode, C., Peuhkuri, R., Hansen, K. K., Time, B., Svennberg, K., Arfvidsson, J. and Ojanen, T., (2005), "Moisture Buffer Value of Materials in Buildings", 7th Nordic Building Physics Symposium, Reykjavik, Iceland, pp. 108-115.
Abstract:

Author Information and Other Publications Notes
Rode, C.
Carsten Rode Pedersen
  1. eds. Annex 41 Final Report, Volume 1: Modelling Principles and Common Exercises
  2. Empirical validation of a transient computer model for combined heat and moisture transfer
  3. Experimental investigation of the hygrothermal performance of insulation materials
  4. Full-scale testing of indoor humidity and moisture buffering in building materials
  5. Global building physics
  6. International building physics toolbox, general report
  7. Investigation of Microclimate by CFD Modeling of Moisture Interactions between Air and Constructions
  8. Latent heat flow in lightweight roofs and its influence on the thermal performance of buildings
  9. Model and experiments for hygrothermal conditions of the envelope and indoor air of buildings
  10. Moisture buffer value of building materials
  11. Moisture buffering of building materials
  12. Moisture conditions of non-ventilated, wood-based, membrane-roof components
  13. Moisture: its effects on the thermal performance of a low-slope roof system
  14. Non-isothermal water vapour transmission through porous insulation. Part 1: The climate chamber
  15. Organic insulation materials: effect on indoor humidity and necessity of a vapor barrier
  16. Test cell measurements of moisture buffer effects
  17. The importance of moisture buffering for indoor climate and energy conditions of buildings
  18. The International Building Physics Toolbox in Simulink
  19. The self-drying concept for flat roofs
  20. Tools for performance simulation of heat, air and moisture conditions of whole buildings
  21. Whole-building Hygrothermal Simulation Model  
Peuhkuri, R.
  1. International building physics toolbox, general report
  2. Investigation of Microclimate by CFD Modeling of Moisture Interactions between Air and Constructions
  3. Moisture and bio-deterioration risk of building materials and structuresL?hdesm?ki
  4. Moisture buffer value of building materials
  5. Moisture dynamics in building envelopes
  6. Non-isothermal water vapour transmission through porous insulation. Part 1: The climate chamber
  7. The International Building Physics Toolbox in Simulink
  8. Towards modelling of decay risk of wooden materials  
Hansen, K. K.
  1. Experimental investigation of the hygrothermal performance of insulation materials
  2. Non-isothermal water vapour transmission through porous insulation. Part 1: The climate chamber
  3. Results of a water vapor transmission round-robin test using cup methods
  4. Sorption isotherms - a catalogues
  5. Sorption isotherms: a catalog and a data base  
Time, B.
  1. Capacity of rendering systems to resist rain penetration
  2. Hygroscopic moisture transport in wood
  3. Intercomparison on measurement of water vapour permeance
  4. Moisture buffer value of building materials  
Svennberg, K.
  1. Determination of moisture properties for materials exposed to the indoor air
  2. Moisture buffer value of building materials
  3. Previous Experimental Studies and Field Measurements on Moisture Buffering by Indoor Surface Materials  
Arfvidsson, J.
Jesper Arfvidsson
  1. A new algorithm to calculate the isothermal moisture penetration for periodically varying relative humidity at the boundary
  2. Isothermal moisture flow in building materials: modelling, measurements and calculations based on Kirchhoff's potentia
  3. Moisture transport in porous media. modelling based on Kirchhoff potentials
  4. PC-based method to calculate moisture transport  
Ojanen, T.
Tiiomo Ojanen Senior research scientist VTT Building Technology, Finland.
  1. Drying capabilities of wood frame walls with wood siding
  2. Effect of exfiltration on the hygrothermal behaviour of a residential wall assembly: results from calculations and computer simulations
  3. Heat and mass transfer between indoor air and a permeable and hygroscopic building envelope: part I -- field measurements
  4. Heat and mass transfer between indoor air and a permeable and hygroscopic building envelope: part II --verification and numerical studies
  5. Improving indoor climate and comfort with wooden structures
  6. Improving the drying efficiency of timber frame walls in cold climates, by using exterior insulation
  7. Integration of simplified drying tests and numerical simulation in moisture performance analysis of the building envelope
  8. Measuring and modeling vapor boundary layer growth during transient diffusion heat and moisture transfer in cellulose insulation
  9. Modeling heat, air and moisture transport through building materials and components
  10. Moisture and bio-deterioration risk of building materials and structuresL?hdesm?ki
  11. Moisture buffer value of building materials
  12. Moisture performance of an airtight, vapor-permeable building envelope in a cold climate
  13. Moisture transport coefficient of pine from gamma ray absorption measurements
  14. Numerical simulation of mould growth in timber frame walls
  15. Thermal and moisture performance of a sealed cold-roof system with a vapor-permeable underlay
  16. Towards modelling of decay risk of wooden materials  



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