Triple Insulated Windows: Baby, it’s Cold Outside!

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Boasting a savings of 12% whole house energy consumption savings it is tempting to immediately order new highly insulated windows for the whole house. But before you do, consider the payback. Sure, you will be snug as a bug inside the house but according to the Department of Energy’s Pacific Northwest National Laboratory (PNNL), it takes two decades or more for these highly insulated windows to provide a utility bill return on investment.

Based upon a study conducted at PNNL’s lab homes in Richland, Washington, aluminum-frame double-pane windows, common in homes across the country, were replaced with newer, triple-pane windows, known as highly insulating windows. The triple pane windows lowered energy use in the test home by 12.2 percent. But the cost of the windows is estimated to take between 23 and 55 years to make up.

“A savings of 12 percent on whole-house energy consumption is substantial, especially when you’re talking about changing a relatively small percentage of a home’s envelope,” said senior staff engineer Graham Parker, a founder of the project. “But the windows are expensive.”

The team points out other factors besides cost though.

“Comfort is also important,” said Parker. “The windows cut down dramatically on cold air radiating from the windows and they reduce temperature variations in the home, where some areas will be much warmer or cooler than others. They also nearly eliminate the formation of condensation on the inside of the window which can lead to mold growth and unhealthy indoor air. It’s hard to put a dollar value on comfort and health.”

Benefits were found in the summer too. The low-emissivity (low-e) coating reduced internal solar heat gain. This cut energy consumption by nearly 25% during peak air conditioning periods thereby creating less demand on the electrical grid.

The control home’s double-pane windows had a U-factor of 0.68, the equivalent of a 1.47 R-value. The triple-pane windows block approximately 80 percent of solar heat gain in summer, compared to 30 percent for the double-pane windows. (The triple-pane windows had a solar heat gain coefficient of 0.19 compared to the double-pane windows’ 0.70.)

The team ran experiments twice in 2012, 10 weeks between February and April, and 6 weeks between July and August. There were no window coverings and thermostats were kept at 75 degrees in winter and 70 degrees in summer.

Read more at Pacific Northwest National Laboratory.

Article by Robin Blackstone, appearing courtesy Environmental News Network.

About Author

Walter’s contributions to CleanTechies over the past 4 years have been instrumental in growing the publications social media channels via his ongoing editorial and data driven strategies. He is the founder and managing director of Sunflower Tax, a renewable energy tax and finance consultancy based in San Diego, California. Active in the San Diego clean technology community, participating in events sponsored by CleanTech San Diego, EcoTopics, and Cleantech Open San Diego, Walter has also been a presenter at numerous California Center for Sustainability (CCSE) programs. He currently serves as an adjunct professor at the University of San Diego School of Law where he teaches a course on energy taxation and policy.