A blower door test is one of the most effective methods for measuring how airtight a home or building is—an important factor that directly influences energy efficiency and comfort. By identifying air leaks, homeowners and builders can make informed improvements to reduce energy loss and enhance indoor performance. With blower door testing in Oregon now a key requirement for code compliance, understanding how to interpret the results is essential for achieving better efficiency. This guide explains how to analyze your test results and use them to create a more comfortable and energy-efficient space.
1. The Basics of Blower Door Testing
Blower door testing in Oregon involves using a calibrated fan to pressurize or depressurize a building to measure air leakage through cracks, joints, and gaps. During the test, airflow and pressure are recorded to determine how much air escapes from the structure. In energy efficiency testing in Oregon, the result is often represented as a score or rate—the lower the number, the more airtight your building is. A low air leakage rate means better insulation performance, fewer drafts, and reduced energy costs.
2. Interpreting Air Leakage Rates (ACH)
One of the key indicators from blower door testing is the Air Changes per Hour (ACH). ACH measures how many times the air inside your building is replaced in one hour under test conditions. A high ACH rate indicates that too much conditioned air is escaping, which reduces energy efficiency and increases heating and cooling costs. Lowering your ACH by sealing leaks and improving insulation helps maintain a consistent indoor temperature and enhances overall comfort.
3. Understanding the CFM50 Measurement
Another important metric is CFM50, or cubic feet per minute at 50 Pascals of pressure. This figure measures the rate of airflow through leaks when your home is pressurized to 50 Pascals. A lower CFM50 value means fewer leaks and better airtightness. After completing your air leakage testing in Oregon, compare your CFM50 results with energy efficiency benchmarks to evaluate performance. High CFM50 values suggest that sealing and insulation upgrades are needed, while low readings indicate your building envelope is performing well.
4. Finding Areas of Major Air Leakage
One of the biggest advantages of blower door testing is the ability to locate areas with significant air leaks. Common trouble spots include windows, doors, ductwork, attics, and basements. Once your blower door testing in Oregon is finished, the technician can pinpoint these weak areas so you can take corrective action. Installing weatherstripping, sealing joints, and filling gaps around openings can greatly reduce air loss, leading to improved comfort and lower energy bills.
5. Deciding When to Air Seal
If your test results show high leakage (high CFM50 or ACH values), air sealing should be your next step. Air sealing involves closing cracks, gaps, and holes in the building envelope to limit the movement of outside air. For example, during energy efficiency testing in Oregon, sealing leaks in the attic, crawl spaces, or around electrical penetrations can make a noticeable difference. Developing a targeted air-sealing plan based on test data ensures long-term improvements in efficiency and durability.
6. Evaluating Insulation Effectiveness
Blower door test results also reveal how well your insulation is performing. Poor insulation combined with high air leakage often leads to excessive energy use and inconsistent indoor temperatures. If your air barrier testing in Oregon or air leakage testing shows elevated leakage rates, it may indicate areas with inadequate insulation. Adding or upgrading insulation in walls, attics, and crawl spaces can help minimize energy loss and improve the overall airtightness of your home.
The Bottom Line
Understanding your blower door testing results in Oregon is the key to maximizing your home’s energy efficiency. When paired with air barrier testing in Oregon, it provides detailed insights into how well your building envelope performs. By sealing leaks, improving insulation, and maintaining proper ventilation, you can significantly reduce energy waste and increase indoor comfort. Regular blower door testing ensures your home remains efficient, cost-effective, and compliant with Oregon’s energy performance standards.