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Air pressure differences move airborne pollutants from areas of higher pressure to areas of lower pressure through any available openings in building walls, ceilings, floors, doors, windows, and air circulation systems. An inflated balloon is an example of this driving force. As long as the opening to the balloon is kept shut, no air will flow, but when open, air will move from inside (area of higher pressure) to the outside (area of lower pressure). Even if the opening is small, air will move until the pressures inside and outside are equal. The air pressure differences are commonly caused by winds and unbalanced air circulation systems.
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The safest, most comfortable, and energy efficient buildings combine the following features:
Effective sealing of air leaks to block entry of drafts, dust, pollen and insects
High efficiency filtration to remove dust and pollen from incoming and recirculating air
Humidity control systems to maintain indoor relative humidity between 25% and 50%.
Fuel combustion systems (if any) that cannot backdraft, releasing carbon monoxide and nitrous oxides indoors
Efficient windows that help to keep heat in during heating season and reduce entry of heat during the air-conditioning season.
Renewable energy systems to provide clean energy and help our fossil fuel supplies to last longer.
ASHRAE Standard 62.1 "Ventilation for Acceptable Indoor Air Quality" requires proper ventilation and a slightly positive pressurization of buildings. Maintaining a small positive air pressure, relative to the outdoors, limits the entrance of outdoor moisture and is a very common strategy to prevent mold and mildew formation in a building.
The American Society of Heating, Refrigerating and Air Conditioning Engineers (ASHRAE) develops national consensus standards. See: www.ASHRAE.org
"Limiting house pressure is important for safety, health, durability comfort, and energy-efficiency. A partial vacuum (negative indoor air pressure) is created when indoor air is removed by use of chimneys, exhaust fans, and clothes dryers.
Negative air pressure in a building can also pull sewer gasses, water vapor, and soil gasses (including pesticide residues) into the building.
Excessive positive and negative air pressures in a building can move moisture-laden air
through holes in the building shell, leading to condensation within building
cavities. Building experts have observed pressure-derived moisture problems
at only ±1 Pascal (.004 inches of
water column) during severe humidity conditions.
To reduce depressurization, technicians provide combustion-air inlets and
makeup air to exhaust fans. Passive make-up of combustion air may be
ineffective and fan-powered options are now preferred by the experts."
— John T. Krigger,
Residential Energy
(3rd Edition), page 75, ISBN 1-880120-11-9.
The removal of indoor air during use of chimneys, exhaust fans, and clothes dryers creates a partial vacuum (negative indoor air pressure) in buildings. A partial vacuum causes unfiltered air to be pulled into buildings through all the openings in the building shell. A partial vacuum can also pull radon, water vapor, sewer gasses, and soil insecticide fumes into a building through pores and cracks in concrete floors and walls.
To block entry of radon and water vapor from the soil through pores and cracks in the walls and floors of the lowest rooms, the U. S. Environmental Protection Agency recommends:
Avoid negative air pressure in rooms with floors built directly above the soil.
Whenever possible, keep the air pressure in the lowest rooms about 0.5 Pascals (.002 inches of water column) higher than the pressure of gasses in the soil.
Backdrafting of chimneys is a threat primarily from combustion appliances
that have naturally (non-powered) drafting chimneys and which also have their
combustion chambers open to indoors. The depressurization limit for a combustion
zone is often set at -3 Pascals (.012 inches of water column) with
reference to outdoors.
— John T. Krigger,
Residential Energy
(3rd Edition), page 75, ISBN 1-880120-11-9.
Excessive positive or negative
pressures can move large quantities of moisture-laden air through holes in a
building's shell, leading to
condensation and mold growth within building cavities. Moist insulation is
less efficient. Building experts have observed pressure-derived moisture
problems at only ±
1 Pascal (enough
to raise a column of water .004 inches) during severe humidity
conditions."
— John Krigger, Residential Energy (3rd Edition), page 75.
Sealing air leaks in a building makes it easier to maintain a slightly positive air pressure in the lowest rooms to minimize entry of radon, water vapor, pesticides, herbicides, sewer gas, etc.
The entry of water vapor can increase the costs of air conditioning and increase the odds of growing smelly molds that can trigger allergy and asthma symptoms in some individuals. See:
Indoor air pressure control is used in hospitals to help prevent the spread of infectious airborne microbes. See: Hospital Air Pressure .
To reliably control indoor air pressure at the very low level recommended by the Environmental Protection Agency, you must have a reliable means to monitor the pressure. We manufacture affordable and reliable indoor air pressure sensors that have only one moving part and never require recalibration. These air pressure sensors can detect positive or negative air pressure as low as 0.5 Pascals (the pressure of a water column only 0.002 inches high).
Air Pressure and Building Envelopes — Joseph Lstiburek
Mold in Your Home — Douglas Pencille
Field Measurement of Uncontrolled Air Flow and Depressurization of Restaurants
Controlling Ventilation and Space Depressurization in Restaurants in Hot and Humid Climates
Controlling Mold Growth in Exterior Walls by Controlling Indoor Air Pressure
Some Basic Dynamics of Over-Pressurization and De-Pressurization In a Building
Sealing Air Leaks and Controlling Ventilation to Save Money to Protect Health
Air Duct Leakage Testing — Energy Conservatory
Air Duct Leakage — Infiltec
Discovering Ducts — Home Energy Magazine
Control air pressure in hospitals to help prevent the spread of infectious airborne microbes.
Make-Up Air Units for industrial and for commercial kitchen applications.
