Why Duct Leakage Testing Matters in Green Village, NJ
The network of duct pipes that conveys conditioned air throughout your home is vital for optimal HVAC performance. But, despite the impact on comfort and efficiency, leaky ducts permit the escape of precious conditioned air. Substantial outcomes emerge from this leakage:
- Discomfort: Inconsistent temperature levels, temperature variations, and drafts are consequences of ducts with leaks, making your home feel either uncomfortably warm or cool, despite the HVAC system operating correctly.
- Higher energy bills: The presence of leaks in the ducts requires your HVAC system to operate with greater intensity to uphold desired temperatures, causing a surge in energy usage and higher utility expenses.
- Poor indoor air quality: The presence of ducts with leaks may result in the intake of contaminants from outdoors, compromising the indoor air quality and potentially provoking allergies and respiratory issues.
Duct Leakage Testing: A Proactive Approach
Testing for duct leakage is a straightforward yet highly effective way to recognize and measure air leaks within your duct system. An experienced technician uses a blower door and specialized equipment to build pressure in the duct system, gauging the amount of air that is leaking. CFM25 is used to express the results of the test, signifying the amount of cubic feet of air per minute leaking at a pressure of 25 Pascals.
Cost of Ignoring Duct Leakage in Green Village, NJ
The cost implications of excessive duct leakage can be considerable. As dictated by the NJ Residential Building Code, newly built residences must adhere to a duct leakage rate that does not surpass 8 CFM25 per 100 square feet of conditioned space. Exceeding this set limit may result in:
- Failed inspections: Houses with significant duct leakage may encounter challenges to pass final inspections, leading to delays in occupancy and potentially demanding expensive duct repairs.
- Financial penalties: Certain localities in New Jersey have started enforcing fines on homes that go beyond the established duct leakage limit.
- Wasted energy: The presence of leaky ducts may incur an average annual energy waste cost of $180-$550 for homeowners in Green Village, NJ.
Investing in Peace of Mind and Savings
Choosing duct leakage testing is a relatively budget-friendly decision compared to the potential costs of overlooking the problem. The average cost of a careful duct leakage test in Green Village, NJ is relatively budget-friendly. However, the long-term savings in energy costs and increased comfort significantly outweigh the initial investment.
Quickly resolving duct leaks allows you to:
- Improve home comfort: Attain consistent temperatures throughout your home and say goodbye to both drafts and heat inconsistencies.
- Lower energy bills: Use less energy to save on costs associated with your utility bills.
- Improve indoor air quality: Make breathing more comfortable by ensuring cleaner air circulates through your living space.
- Elevate home value: Prospective buyers are more likely to be interested in homes that pass a duct leakage test.
Local Energy Audits: Your Companion in Ductwork Efficiency
In Green Village, NJ residences, Local Energy Audits recognizes the importance of ductwork efficiency. Offering extensive duct leakage testing services, we ensure your home meets the necessary standards and functions optimally. Additionally, our expert guidance on duct sealing and repair solutions is designed to minimize leaks, ensuring maximum comfort and savings for you.
Safeguard your comfort and energy efficiency by addressing the issue of leaky ducts promptly.
Reach out to Local Energy Audits now and plan your duct leakage test. Breathe with ease, save money, and relish a truly comfortable and energy-efficient residence.
Duct leakage testing initiates by closing off all the ducts and registers with duct mask tape on both the distribution and return side.
After sealing the registers, attach the duct tester to either the unit or a main return.
The ducts are then depressurized to a Pascal of 25. With the ducts depressurized we can utilize the nanometer to get a reading of the duct leakage.