Moisture capacity of log houses can improve the indoor climate conditions

Keyphrases

• Air Change Rate 16%
• Air Condition 16%
• Air Temperature 16%
• Climate Conditions 16%
• Cold Winter 16%
• Cooling System 16%
• Energy Efficient 16%
• Energy Sustainable 16%
• Finland 16%
• Heat Flow 16%
• Heating System 16%
• Helsinki 16%
• Humidity 16%
• Humidity Level 16%
• Humidity Variations 16%
• Hygroscopic Capacity 33%
• Hygroscopic Material 16%
• Indoor Air 83%
• Indoor Climate Conditions 100%
• Indoor Comfort 16%
• Indoor Conditions 16%
• Indoor Humidity 100%
• Indoor Temperature 16%
• Loading Conditions 16%
• Log House 100%
• Log Wall 33%
• Low Humidity 16%
• Moisture 16%
• Moisture Buffering Effect 16%
• Moisture Capacity 100%
• Moisture Exchange 16%
• Moisture Flow 16%
• Moisture Transfer 16%
• Moisture Transport 16%
• Nonhygroscopic 50%
• Northern Climate 16%
• Numerical Simulation 33%
• Occupation Time 16%
• Passive Method 16%
• Perceived Indoor Air Quality 16%
• Potential Analysis 16%
• Sensitivity Analysis 16%
• Space Model 16%
• Surface Temperature 16%
• Thermal Comfort 16%
• Timber 33%
• Two-person 16%
• Ventilation 33%
• Ventilation System 16%
• Winter Season 16%

INIS

• air 41%
• air quality 5%
• applications 5%
• capacity 100%
• climates 100%
• comparative evaluations 11%
• computerized simulation 11%
• cooling systems 5%
• energy 5%
• finland 5%
• heat 5%
• heating systems 5%
• houses 100%
• humidity 47%
• indoors 100%
• interactions 5%
• levels 11%
• moisture 100%
• occupations 17%
• potentials 5%
• sensitivity analysis 5%
• simulation 5%
• space 5%
• surfaces 5%
• thermal comfort 5%
• transport 5%
• values 17%
• variations 5%
• ventilation 11%
• ventilation systems 5%
• walls 35%

Engineering

• Air Change 16%
• Air Condition 16%
• Air Quality 16%
• Change Rate 16%
• Cooling System 16%
• Heating System 16%
• Hygroscopic Material 16%
• Indoor Air 100%
• Limiting Value 16%
• Load Condition 16%
• Moisture Transfer 16%
• Moisture Transport 16%
• Relative Humidity 33%
• Thermal Comfort 16%
• Ventilation System 16%