Infiltration Rules Of Thumb - HVAC

Lataux d'infiltrationest le débit volumétriqueévaluerd'air extérieur dans un bâtiment, généralement en pieds cubes par minute (CFM) ou en litres par seconde (LPS). L'échange d'airévaluer, (I), est le nombre de changements de volume d'air intérieur qui se produisent par heure, et est exprimé en unités de 1/h.

Table of Contents

Général

Sous le niveau du sol ou espaces intérieurs ——Aucune perte ou gain d’infiltration n’est pris en compte pour les pièces situées sous le niveau du sol ou les espaces intérieurs.
Les bâtiments qui ne sont pas humidifiés n’ont pas de charge thermique latente par infiltration.
Les charges d'infiltration sensibles en hiver seront généralement de 1/2 à 3 fois les pertes de chaleur par conduction (en moyenne 1,0 à 2,0 fois).

Infiltration de chauffage (vent de 15 mph)

Méthode du taux de renouvellement d’air

Plage de 0 à 10 AC/h.
Bâtiments commerciaux :
- 1,0 CA/h. un mur extérieur
- 1,5 CA/h. deux murs extérieurs
- 2,0 CA/h. trois ou quatre murs extérieurs
Vestibules 3,0 AC/h.

PCM/pi². de la méthode du mur

Plage de 0 à 1,0 CFM/pi².

Bâtiments étanches 0,1 CFM/pi².

Bâtiments moyens 0,3 CFM/pi².

Bâtiment qui fuit 0,6 CFM/pi².

Méthode de crack

Plage de 0,12 à 2,8 CFM/pi. de fissure
Moyenne 1,0 CFM/pi. de fissure

Infiltration de refroidissement (vent de 7,5 mph)

L’infiltration de la charge de refroidissement est généralement ignorée à moins que des tolérances étroites en matière de contrôle de la température et de l’humidité ne soient requises.

Les valeurs d’infiltration de refroidissement sont généralement considérées comme la moitié des valeurs indiquées précédemment pour l’infiltration de chauffage.

FREQUENTLY ASKED QUESTIONS

What is the difference between infiltration rate and air exchange rate?

The infiltration rate refers to the volumetric flow rate of outside air into a building, typically measured in cubic feet per minute (CFM) or liters per second (LPS). On the other hand, the air exchange rate (I) is the number of interior volume air changes that occur per hour, and has units of 1/h. While infiltration rate measures the flow rate of outside air, air exchange rate measures the frequency of air changes within the building.

How do you determine infiltration losses or gains for rooms located below grade or interior spaces?

No infiltration losses or gains are taken into account for rooms located below grade or interior spaces, as these areas are not directly exposed to outside air. This assumption is based on the fact that air exchange between these spaces and the outdoors is negligible.

What is the relationship between winter sensible infiltration loads and conduction heat losses?

Winter sensible infiltration loads will generally be 1.2 to 3 times the conduction heat losses, with an average of 1.0 to 2.0 times. This means that infiltration loads can be a significant contributor to heating loads in buildings, especially in cold climates.

How does wind speed affect infiltration rates in buildings?

The 15 mph wind speed is a common reference point for estimating infiltration rates in buildings. However, actual wind speeds can vary significantly depending on location and building orientation. As wind speed increases, infiltration rates also increase, leading to greater heat losses and energy consumption.

What is the Air Change Rate Method for estimating infiltration rates?

The Air Change Rate Method estimates infiltration rates based on the number of air changes per hour (AC/hr). For commercial buildings, the range is 0 to 10 AC/hr, with higher rates corresponding to more exterior walls. For example, a building with one exterior wall might have an air change rate of 1.0 AC/hr, while a building with three or four exterior walls might have a rate of 2.0 AC/hr. Vestibules typically have a higher air change rate of 3.0 AC/hr.

How does the CFM/sq ft of Wall Method differ from the Air Change Rate Method?

The CFM/sq ft of Wall Method estimates infiltration rates based on the flow rate of outside air per unit area of exterior wall. This method provides a more detailed estimate of infiltration rates, taking into account the building’s envelope characteristics. The range for this method is 0 to 1 CFM/sq ft of wall.

Can infiltration rates be used to estimate energy consumption in buildings?

Yes, infiltration rates can be used to estimate energy consumption in buildings. By calculating the infiltration rate and air exchange rate, building designers and engineers can estimate the heating and cooling loads required to maintain a comfortable indoor environment. This information can be used to optimize building design, HVAC system sizing, and energy efficiency strategies.