This paper presents detailed results of an application of moisture engineering in North Carolina, where within the first six months of occupancy, some problems were observed in 3200 homes (Nisson 1995). All the homes employed an exterior insulation finish system(EIFS). An extensive laboratory and material testing analysis to determine the cause of failure was undertaken. A state of-the-art transient two-dimensional and three-dimensional finite difference model was employed to numerically solve the heat, air, and moisture transport through various EIFS walls. The drying potential ofeach system was then numerically analyzed using real weather conditions, and results clearly demonstrated the limited drying potential for the wall system in that climate. From these results, moisture control strategies are identified.

• experiment: facility on moisture in building envelope : use experimental data to validate models
• HAM: theory and modelling : use computer simulation for design
• moisture engineering : proposal
• rain penetration, water intrusion : mention computer simulation of rain trajectory and penetration
• validation of models : use validated model and parameter for simultions

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. Barrier EIFS clad walls: Results from a moisture engineering study
6. Boundary element analysis of uncoupled quasi-static hygrothermoelasticity for two-dimensional composite walls
7. Building enclosure hygrothermal performance study phase I
8. Drying capabilities of wood frame walls with wood siding
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