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Drying capabilities of wood frame walls with wood siding

Salonvaara, M. H., Ojanen, T., Kokko, E. and Karagiozis, A. N.
1998
Thermal Performance of the Exterior Envelopes of Buildings VII, Clear water Beach, Florida, pp. 165-177
wood frame wall, exterior sheathing, cavity ventilation


Salonvaara, M. H., Ojanen, T., Kokko, E. and Karagiozis, A. N., (1998), "Drying capabilities of wood frame walls with wood siding", Thermal Performance of the Exterior Envelopes of Buildings VII, Clear water Beach, Florida, pp. 165-177.
Abstract:
The hygrothermal performance of wood siding and exterior sheathing and the need of cavity ventilation for wood frame wall systems has been investigated The aim of this preliminary study was to investigate various design strategies to improve the drying performance and capabilities of wood frame wall systems. A moisture engineering approach was undertaken by conducting a combination of laboratory experiments and advanced computer simulations. The intent of the work was to investigate the heat and moisture performance as affected by variations in the wall design.

Several different walls systems with wood siding were constructed that included different material layers as exterior sheathing, different insulation materials, and wall systems that incorporated air cavity ventilation and others that did not incorporate a cavity between the wood siding and the exterior sheathing. Laboratory experiments were carried out to examine the hygrothermal performance of the walls exposed to different exterior and interior boundary conditions. The drying capabilities of the walls and their ability to recover from moisture loads caused by vapor convection and diffusion were investigated.

The information generated from the laboratory experiments was subsequently analyzed by advanced computer modeling, and additional simulations were performed to determine the response of various wall systems using realistic environmental condi-tions. The experiments were also numerically simulated for the same laboratory conditions. In general, when comparing the numerical and experimental results, good agreement was observed, both indicating similar trends in the hygrothermal behavior But at the same time, some anomalous results were also found that were initially believed to be due to anomalies within details of the wall structures but were later found to be caused by spurious values in the prescribed boundary conditions. The different requirements due to actual climatic boundary conditions were addressed by selecting exterior data from a cold climate. The anal-ysis developed preliminary information in terms of guidelines and practices for acceptable thermal and moisture performance of wood frame walls.

The hygrothermal performance of exterior sheathing materiaIs their effect on wall moisture performance, and the ability of the structure to dry out moisture from possible leaks (or initial construction moisture) need further research to establish guidelines applicable for a wider range of climates. Even today, many examples of moisture-related problems exist in the literature, some of which have been attributed to improper design of the cladding system. This paper attempts to shed some light on the issues and concerns of the drying performance of wood frame wall systems exposed to cold climates.


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Author Information and Other Publications Notes
Salonvaara, M. H.
     
Ojanen, T.
Tiiomo Ojanen Senior research scientist VTT Building Technology, Finland.
  1. Effect of exfiltration on the hygrothermal behaviour of a residential wall assembly: results from calculations and computer simulations
  2. Heat and mass transfer between indoor air and a permeable and hygroscopic building envelope: part I -- field measurements
  3. Heat and mass transfer between indoor air and a permeable and hygroscopic building envelope: part II --verification and numerical studies
  4. Improving indoor climate and comfort with wooden structures
  5. Improving the drying efficiency of timber frame walls in cold climates, by using exterior insulation
  6. Integration of simplified drying tests and numerical simulation in moisture performance analysis of the building envelope
  7. Measuring and modeling vapor boundary layer growth during transient diffusion heat and moisture transfer in cellulose insulation
  8. Modeling heat, air and moisture transport through building materials and components
  9. Moisture and bio-deterioration risk of building materials and structuresL?hdesm?ki
  10. Moisture buffer value of building materials
  11. Moisture Buffer Value of Materials in Buildings
  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  
Kokko, E.
  1. Moisture physical behaviour of wooden structures  
Karagiozis, A. N.
Achilles N. Karagiozis, Oak Ridge National Laboratory, Building Technology Center, Oak Ridge
  1. A North American research approach to moisture design by modeling
  2. Advanced hygrothermal modeling of building materials using MOISTURE-EXPERT 1.0
  3. Advanced hygrothermal models and design models
  4. An educational hygrothermal model: WUFI-ORNL/IBP
  5. Applied moisture engineering
  6. Barrier EIFS clad walls: Results from a moisture engineering study
  7. Boundary element analysis of uncoupled quasi-static hygrothermoelasticity for two-dimensional composite walls
  8. Building enclosure hygrothermal performance study phase I
  9. EIFS hygrothermal performance due to initial construction moisture as a function of air leakage, interior cavity insulation, and climate conditions
  10. Hygrothermal system-performance of a whole building
  11. Importance of moisture control in building performance
  12. Influence of material properties on the hygrothermal performance of a high-rise residential wall
  13. Integrated approaches for moisture analysis
  14. Integrated hygrothermal performance of building envelopes and systems
  15. Measurements and two-dimensional computer simulations of the hygrothermal performance of a wood frame wall
  16. Moisture transport in building envelopes using an approximate factorization solution method
  17. Position paper on material characterization and HAM model benchmarking
  18. Simulation of indoor temperature and humidity conditions including hygrothermal interactions with the building envelope
  19. Wind-driven rain distributions on two buildings
  20. WUFI-ORNL/IBP - A North American Hygrothermal Mode  



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