-
-
Available Formats
- Options
- Availability
- Priced From ( in USD )
-
Available Formats
-
- Immediate download
-
$32.00Members pay $24.00
- Add to Cart
Customers Who Bought This Also Bought
-
RP-677 -- Effect of Automatic Sprinkler Protection on Smo...
Priced From $32.00 -
RP-620 -- Validation of Heat Pump/Heat Recovery System Mo...
Priced From $32.00 -
RP-625 -- Matching Filtration to Health Requirements, Pha...
Priced From $32.00 -
RP-656 -- Heat Pump/Heat Recovery Operating Experience
Priced From $32.00
About This Item
Full Description
Stack or buoyancy forces due to the difference in density between cold outdoor air and warm indoor air are known to be a source of problems in tall buildings in cold climates. The best known example is high pressure differences causing entrance and stairwell doors to require excessive force to open or close. Other problems are due to the airflow induced by stack forces through the building envelope and interior zones. A common example is excessive infiltration of cold air through the building envelope on lower floors, causing excessive heating load and discomfort to building occupants.
Stack effect occurs in reverse in hot climates, where outdoor air is less dense than cool indoor air. However, the pressure difference is usually much smaller in hot climates because the temperature difference is smaller; thus the problems induced are not as noticeable. This study concentrates on the cold outdoor situation, which can produce peak stack forces twice as large as the hot outdoor situation.