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Moisture: its effects on the thermal performance of a low-slope roof system

Desjarlais, A.O., J.E. Christian, D.M. Kyle, and C. Rode
1993
ASHRAE Transactions, 99(2)

Desjarlais, A.O., J.E. Christian, D.M. Kyle, and C. Rode, (1993), "Moisture: its effects on the thermal performance of a low-slope roof system", ASHRAE Transactions, 99(2).
Abstract:
Related Resources:

Related Concepts

  • roof : moisture, low-slope
Author Information and Other Publications Notes
Desjarlais, A. O.
Program Manager, Building Materials and Structures, Oak Ridge National Laboratory, Bethel Valley Rd., Bldg 3147, Oak Ridge, TN 37831-6070, e-mail: yt7@ornl.gov
  1. An educational hygrothermal model: WUFI-ORNL/IBP
  2. Investigation of common thermal bridges in walls
  3. Laboratory measurements of the drying rates of low-slope roofing systems
  4. Moisture control in low-slope roofing: a new design requirement
  5. Moisture studies of a self-drying roof: tests in the large-scale climate simulator and results from thermal and hygric models
  6. Self-drying roofs: What? No dripping!
  7. The whole wall thermal performance calculator-on the net
  8. Water-vapor measurements of low-slope roofing materials
  9. Whole wall rating/label for structural insulated panel: steady-state thermal analysis  
Christian, J. E.
Oak Ridge National Laboratory
  1. Laboratory measurements of the drying rates of low-slope roofing systems
  2. Moisture control in low-slope roofing: a new design requirement
  3. The whole wall thermal performance calculator-on the net
  4. Whole wall rating/label for structural insulated panel: steady-state thermal analysis  
Kyle, D. M.
  1. Laboratory measurements of the drying rates of low-slope roofing systems  
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 Buffer Value of Materials in Buildings
  12. Moisture buffering of building materials
  13. Moisture conditions of non-ventilated, wood-based, membrane-roof components
  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  


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