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The Economic Times
The Economic Times
Team Global

Most people never think about roof color, but Berkeley Lab found swapping a dark roof for a reflective "cool roof" cuts a building's annual air-conditioning energy use by 5–20%

Every summer, millions of Americans turn on the air conditioning and brace themselves for the electric bill that comes with it. Most never think about the fact that the color of their roof might be working quietly against them. According to the Lawrence Berkeley National Laboratory overview of cool-roof research, a dark rooftop can absorb so much sunlight that its surface temperature is 50 to 90 degrees Fahrenheit hotter than the surrounding air.

A reflective “cool” roof, by contrast, stays only about 10 to 20 degrees warmer than the outside air. That gap is why one of the country’s premier energy research labs has spent decades studying rooftops as a simple fix to the summer energy problem.

Why roof color is a bigger deal than it sounds

Roofs work like the lid on a pot. Sunlight falling on a dark, tar-like surface is absorbed and converted into heat, which seeps into the attic and living space below. A light-colored or specially coated “cool” roof bounces a lot more of that sunlight back up to the sky. In the 1999 study, ‘The impact of reflectivity and emissivity of roofs on building cooling and heating energy use,’ researchers at the Lawrence Berkeley National Laboratory, Hashem Akbari and Steven Konopacki, did real-world tests in homes in California and Florida and found that the switch to a reflective roof cut air-conditioning energy use by 10% to 50%, saving $10 to $100 a year for every 100 square meters of roof depending on how well insulated the home was initially.

The receipts: what happened to the actual buildings

This isn't just simulation talk. In the Lawrence Berkeley National Laboratory field demonstration report, researchers recoated the roofs of three real California commercial buildings, tripling the buildings’ reflectivity, and measured the results. One building recorded an 18% drop in summertime air-conditioning use, another 13%, and a third 2%, with roof-surface temperatures on hot afternoons falling from around 175°F to about 120°F.

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