Hot Roofs California: Berkeley Labs Launches Interactive Map of Rooftop Reflectance for Five Golden State Cities.

Far more hot than not.

Berkeley Labs says:

" How cool is your roof? If you live in the California cities of Bakersfield, Long Beach, Los Angeles, San Francisco, or San Jose, you may be able to find out.

"Scientists from the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have created an interactive map that displays the solar reflectance (also known as albedo) of individual roofs in these five West Coast cities."

"The map offers a bird's-eye view of rooftop albedo across entire cities. You can also zoom in to see the albedo of an individual roof, and how it compares with the albedo of a white roof, the albedo of a cool-colored roof, and the average albedo of all the roofs in the city.

"The map is intended to help homeowners and commercial property owners better understand their roof reflectance. It's also intended to help policymakers visualize the albedo of each city's current roofing stock, and inform the development of policies that could lead to cooler cities.

"It was developed by cool roof experts in Berkeley Lab's Heat Island Group, which is part of the Environmental Energy Technologies Division, with help from Berkeley Lab's Public Affairs Department. The California Air Resources Board funded the research behind the map.

"What exactly is albedo, and why do scientists want to map it? Albedo is the fraction of sunlight that is reflected from a surface. It is measured on a scale of zero to one, where higher numbers indicate greater reflectance and a cooler surface.

"A high-albedo cool roof strongly reflects sunlight, decreasing solar heating of the building. This reduces cooling energy use and lowers energy bills. In addition, since roofs cover about 20 to 25 percent of most cities, widespread deployment of cool roofs could mitigate the urban heat island effect. Cool roofs could also partially counter urban temperature increases associated with global-scale climate change.

"Los Angeles, for example, recently implemented an ordinance that requires all new or refurbished residential buildings to be equipped with cool roofs. The potential dividends of the ordinance are illustrated by the swaths of red and orange roofs (indicating low-albedo roofs) in the Los Angeles portion of the map. If much of the city's roofing stock became more reflective, buildings would be more energy efficient, and the city would likely be cooler and more comfortable in the summer.

"The Berkeley Lab scientists developed the map using data collected in summer 2009 by the National Agriculture Imagery Program (NAIP) of the U.S. Department of Agriculture. NAIP imagery is available to the public. An airplane-mounted sensor measured light intensity in four narrow spectral bands--blue, green, red, and near-infrared--at one-meter spatial resolution. These four-band aerial images were originally acquired for the NAIP. For accuracy, the Berkeley Lab scientists used a radiometrically calibrated version of the NAIP imagery.

"After various corrections were made, such as accounting for light scattering in the atmosphere, individual rooftop pixels were isolated, and the albedo of each roof was estimated.

"The results were calibrated and "ground-truthed" using laboratory measurements of the spectral reflectances of hundreds of roofing samples, and pyranometer (sunlight meter) measurements of rooftop albedo. Streets and parking lots were excluded from the analysis.

"It is important to note that rooftop equipment, such as solar panels or HVAC systems, was not distinguished from the roofing material and was included in the albedo estimate for each rooftop. There is also associated uncertainty in the reported albedo for each rooftop, especially for high albedo roofs. For more details on methods, uncertainties, and further analyses and implications, see the CARB report.

"The map also shows modeled decreases to air temperature on a summer afternoon in Bakersfield and surrounding areas if cool roofs were installed on the city's homes and businesses. A regional climate model indicated that cool roofs alone would lower average afternoon temperatures by up to 0.2 C in summer and winter. Further cooling could be attained with reflective pavements and shade trees. "

 

Clearly, looking at the maps, these California cities have far more hot roofs than cool. They need to work on that. (9/24/14)

 

Interactive Map "Hot Roofs, Cool Roofs"

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