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'Infiltration' is the unintentional or accidential introduction of outside air into a building, typically through cracks in the building envelope and through use of doors for passage[1]. Infiltration is sometimes called 'air leakage'. The leakage of room air out of a building, intentionally or not, is called 'exfiltration'. Infiltration is caused by wind and by air buoyancy forces known commonly as the stack effect.
The 'infiltration rate' is the volumetric flow rate of outside air into a building, typically in cubic feet per minute (CFMs) or liters per second (LPSs). The 'air exchange rate', (''I''), is the number of interior volume air changes that occur per hour, and has units of 1/h. The air exchange rate is also known as 'air changes per hour' (''ACHs'').
ACH can be calculated by multiplying the building's CFM by 60, and then dividing by the building volume. (CFM x 60)/volume
In many smaller buildings, 'forced' or 'mechanical' ventilation is not used to introduce ventilation air. Instead, natural ventilation, via operable windows and other openings, exhaust fans, and infiltration are used to provide ventilation air. Typically, at least one-third air change per hour is considered the minimum. Recently, ASHRAE Standard 62.2 has been adopted (2004); it clarifies the ventilation air requirements for low-rise residences. The Standard specifies when, for example, forced ventilation is required in houses.
Because infiltration is uncontrolled, and admits unconditioned air, it is generally considered undesirable except for ventilation air purposes. Typically, infiltration is minimized to reduce dust, to increase thermal comfort, and to decrease energy consumption. For all buildings, infiltration can be reduced via sealing cracks in a building's envelope, and for new construction or major renovations, by installing continuous air retarders. In buildings where forced ventilation is provided, their HVAC designers typically choose to slightly pressurize the buildings by admiting more outside air than exhausting so that infiltration is drammatically reduced.
In typical modern U.S. residences, about one-third of the HVAC energy consumption is due to infiltration. Another third is to ground-contact, and the remainder is to heat losses and gains through windows, walls, and other thermal ''loads''. As such, reducing infiltration can yield significant energy savings, with rapid payback. In cold climates, with a 15 MPH wind, residences often have air exchange rates of 1.0 to 1.5 ACHs, far in excess of the ventilation air needs and are thus called ''loose construction''. While it is possible to build a house too ''tightly'', e.g., 0.25 ACH, it is very easy to reduce infiltration rates to less than 1.0 ACH. Smoke candles and blower-door tests can help identify less-than-obvious leaks. The Weatherization article describes methods for energy savings further.
★ Vapor barrier
★ Ventilation (architecture)
★ Natural ventilation
★ Indoor air quality
★ Thermal comfort
★ Sick building syndrome
★ Heating, Ventilation and Air-Conditioning
★ Psychrometrics
★ Mechanical engineering
★ Architectural engineering
★ Green building
1. ''Fundamentals volume of the ASHRAE Handbook'', Ch. 27, ASHRAE, Inc., 2005
| Contents |
| Infiltration measures |
| Infiltration as ventilation air |
| Controlling infiltration |
| Energy savings |
| See also |
| References |
Infiltration measures
The 'infiltration rate' is the volumetric flow rate of outside air into a building, typically in cubic feet per minute (CFMs) or liters per second (LPSs). The 'air exchange rate', (''I''), is the number of interior volume air changes that occur per hour, and has units of 1/h. The air exchange rate is also known as 'air changes per hour' (''ACHs'').
ACH can be calculated by multiplying the building's CFM by 60, and then dividing by the building volume. (CFM x 60)/volume
Infiltration as ventilation air
In many smaller buildings, 'forced' or 'mechanical' ventilation is not used to introduce ventilation air. Instead, natural ventilation, via operable windows and other openings, exhaust fans, and infiltration are used to provide ventilation air. Typically, at least one-third air change per hour is considered the minimum. Recently, ASHRAE Standard 62.2 has been adopted (2004); it clarifies the ventilation air requirements for low-rise residences. The Standard specifies when, for example, forced ventilation is required in houses.
Controlling infiltration
Because infiltration is uncontrolled, and admits unconditioned air, it is generally considered undesirable except for ventilation air purposes. Typically, infiltration is minimized to reduce dust, to increase thermal comfort, and to decrease energy consumption. For all buildings, infiltration can be reduced via sealing cracks in a building's envelope, and for new construction or major renovations, by installing continuous air retarders. In buildings where forced ventilation is provided, their HVAC designers typically choose to slightly pressurize the buildings by admiting more outside air than exhausting so that infiltration is drammatically reduced.
Energy savings
In typical modern U.S. residences, about one-third of the HVAC energy consumption is due to infiltration. Another third is to ground-contact, and the remainder is to heat losses and gains through windows, walls, and other thermal ''loads''. As such, reducing infiltration can yield significant energy savings, with rapid payback. In cold climates, with a 15 MPH wind, residences often have air exchange rates of 1.0 to 1.5 ACHs, far in excess of the ventilation air needs and are thus called ''loose construction''. While it is possible to build a house too ''tightly'', e.g., 0.25 ACH, it is very easy to reduce infiltration rates to less than 1.0 ACH. Smoke candles and blower-door tests can help identify less-than-obvious leaks. The Weatherization article describes methods for energy savings further.
See also
★ Vapor barrier
★ Ventilation (architecture)
★ Natural ventilation
★ Indoor air quality
★ Thermal comfort
★ Sick building syndrome
★ Heating, Ventilation and Air-Conditioning
★ Psychrometrics
★ Mechanical engineering
★ Architectural engineering
★ Green building
References
1. ''Fundamentals volume of the ASHRAE Handbook'', Ch. 27, ASHRAE, Inc., 2005
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