• Our Services
  • Plumbing
  • Heating Installation
  • Air Conditioning
  • Zoning
  • Energy Star QI
  • Massachusetts Quality Installation Verification
• Technical Advancements
  • Sealed Combustion Heating Appliances
  • Fresh Air Systems and Industry Misconceptions
  • Carbon Monoxide
  • Combustion Theory and Optimization
  • Tekmar
  • ACCA Manual J Sizing
  • Duct Systems
  • Refrigeration Theory
• Consulting Services
  • Blower Door and Infiltration Testing
  • Infrared Diagnostics and Thermography
  • Data Logging
  • Air Balancing and Measurement
  • Performance Contracting
  • Air Sealing
  • Air Flow and Diagnostics
• Your Family's Air
  • Air Filtration 101
  • Why Are Ionic Breeze Units Ineffective?
  • Air Monitoring
  • Carbon Monoxide Monitors
• Our Company
  • Accolades
  • Time Capsule
  • Certifications and Licensing
• Renewable Energy
  • Solar
  • Geothermal Heating and Cooling
• Contact Us
• Free Newsletter

Measuring House Air Tightness

Despite the growing importance of house air tightness, few Hampshire County homeowners actually know how tight their homes are. Unfortunately, it is virtually impossible to accurately estimate the tightness level of a home by visual inspection alone. And without knowing house air tightness, it is difficult to assess the need for, or to design an effective approach to duct, air sealing & indoor air quality.

The easiest way to measure house air tightness is with a diagnostic tool called a blower door. The blower door consists of a powerful, calibrated fan that is temporarily sealed into an exterior doorway. The fan blows air out of the house to create a slight pressure difference between inside and outside. This pressure difference forces air through all holes and penetrations in the exterior envelope. Blower door tests are typically performed at a pressure difference of 50 Pa (0.2 inches of water column).

By simultaneously measuring the airflow through the fan and its effect on the air pressure in the house, the blower door system measures the air tightness of the entire building envelope. The tighter the building (e.g. fewer holes), the less air you need from the blower door fan to create a change in house pressure.

Air tightness measurements are presented in a number of different formats including:

square inches of leakage
air flow needed to generate 50 Pa of pressure difference (CFM50)
air changes per hour at 50 Pa of pressure difference (ACH50)

It takes about 20-40 minutes to set-up a blower door and do a test to document the air tightness of a house. In addition to assessing the overall air tightness level of the building envelope, the blower door can be used to estimate the amount of leakage between the conditioned space of the building and attached structural components such as garages, attics and crawlspaces. It can also be used to estimate the amount of outside leakage in forced air duct systems. And because the blower door forces air through all holes and penetrations, these problem spots are easier to find using chemical smoke, an infrared camera or simply feeling with your hand. The air tightness measurement can also help you assess the potential for back drafting of natural draft appliances by exhaust fans and other mechanical devices.
 

Wilson Services, Inc. All rights reserved. Home | Contact

Areas We Serve
Amherst MA, Belchertown MA, Chicopee MA, Easthampton MA, East Longmeadow MA, Florence MA, Goshen MA, Granby MA, Hadley MA, Hatfield MA, Haydenville MA, Holyoke MA, Leeds MA, Longmeadow MA, Northampton MA, Pelham MA, South Hadley MA, Southampton MA, Springfield MA, Whately MA, Westhampton MA, West Springfield MA, Wilbraham MA, Williamsburg MA, as well as Franklin and Hamden County

Phone: (413) 584-3317 Fax: 413-584-3377 Street Address: 474 Easthampton Rd. PO Box 1570 Northampton, MA