Maybe now NOAA will get rid of all remaining rooftop climate monitoring stations or stations sited over asphalt, like this one. As for the carbon emissions issue, that remains to be seen.
Global Model Confirms: Cool Roofs Can Offset Carbon Dioxide Emissions and Mitigate Global Warming
Can light-colored rooftops and roads really curb carbon emissions and combat global climate change? The idea has been around for years, but now, a new study by researchers at Lawrence Berkeley National Laboratory that is the first to use a global model to study the question has found that implementing cool roofs and cool pavements in cities around the world can not only help cities stay cooler, they can also cool the world, with the potential of canceling the heating effect of up to two years of worldwide carbon dioxide emissions.
Because white roofs reflect far more of the sun’s heat than black ones, buildings with white roofs will stay cooler. If the building is air conditioned, less air conditioning will be required, thus saving energy. Even if there is no air conditioning, the heat absorbed by a black roof both heats the space below, making the space less comfortable, and is also carried into the city air by wind—raising the ambient temperature in what is known as the urban heat island effect. Additionally, there’s a third, less familiar way in which a black roof heats the world: it radiates energy directly into the atmosphere, which is then absorbed by the nearest clouds and ends up trapped by the greenhouse effect, contributing to global warming.
Today, U.S. Energy Secretary Steven Chu announced a series of initiatives at the Department of Energy to more broadly implement cool roof technologies on DOE facilities and buildings across the federal government. As part of the effort to make the federal government more energy efficient, Chu has directed all DOE offices to install cool roofs, whenever cost effective over the lifetime of the roof, when constructing new roofs or replacing old ones at DOE facilities. Additionally, the Secretary has also issued a letter to the heads of other federal agencies, encouraging them to take similar steps at their facilities.
“Cool roofs are one of the quickest and lowest cost ways we can reduce our global carbon emissions and begin the hard work of slowing climate change,” said Chu. “By demonstrating the benefits of cool roofs on our facilities, the federal government can lead the nation toward more sustainable building practices, while reducing the federal carbon footprint and saving money for taxpayers.”
In the latest study, the Berkeley Lab researchers and their collaborators used a detailed global land surface model from NASA Goddard Space Flight Center, which contained regional information on surface variables, such as topography, evaporation, radiation and temperature, as well as on cloud cover. For the northern hemisphere summer, they found that increasing the reflectivity of roof and pavement materials in cities with a population greater than 1 million would achieve a one-time offset of 57 gigatons (1gigaton equals 1 billion metric tons) of CO2 emissions (31 Gt from roofs and 26 Gt from pavements). That’s double the worldwide CO2 emissions in 2006 of 28 gigatons. Their results were published online in the journal Environmental Research Letters.
“These offsets help delay warming that would otherwise take place if actual CO2 emissions are not reduced,” says Surabi Menon, staff scientist at Berkeley Lab and lead author of the paper.
Co-author Hashem Akbari emphasizes that cool roofs and pavements are only a part of the solution: “Two years worth of emissions is huge, but compared to what we need to do, it’s just a dent in the problem,” says Akbari, the former head of the Berkeley Lab Heat Island Group and now Hydro-Quebec Industrial Research Professor at Concordia University in Montreal. “We’ve been dumping CO2 into the atmosphere for the last 200 years as if there’s no future.”
This study is a follow-up to a 2008 paper published in the journal Climate Change, which calculated the CO2 offset from cool surfaces by using a simplified model that assumed a global average for cloud cover. The earlier paper, co-authored by Akbari, Menon and Art Rosenfeld, a Berkeley Lab physicist who was then a member of the California Energy Commission, found that implementing cool roofs and pavements worldwide could offset 44 gigatons of CO2 (24 Gt from roofs and 20 Gt from pavements).
Equivalent to Getting 300 Millions Cars Off the Road
“If all eligible urban flat roofs in the tropics and temperate regions were gradually converted to white (and sloped roofs to cool colors), they would offset the heating effect of the emission of roughly 24 Gt of CO2, but one-time only,” says Rosenfeld, who returned to Berkeley Lab this year. “However, if we assume that roofs have a service life of 20 years, we can think of an equivalent annual rate of 1.2 Gt per year. That offsets the emissions of roughly 300 million cars (about the cars in the world) for 20 years!”
In both studies, the researchers used a conservative assumption of increasing the average albedo (solar reflectance) of all roofs by 0.25 and of pavements by 0.15. That means a black roof (which has an albedo of 0) would not have to be replaced by a pure white roof (which has an albedo of 1), but just a roof of a cooler color, a scenario that is more plausible to implement.
[2]Lighter colored pavement is more reflective, resulting in a cooler surface temperature. (Photo courtesy ASU National Center of Excellence for SMART Innovations)
Roofs and pavements cover 50 to 65 percent of urban areas. Because they absorb so much heat, dark-colored roofs and roadways create what is called the urban heat island effect, where a city is significantly warmer than its surrounding rural areas. This additional heat also eventually contributes to global warming. More than half of the world’s population now lives in cities; by 2040 the proportion of urbanites is expected to reach 70 percent, adding urgency to the urban heat island problem.
The Berkeley Lab study found that global land surface temperature decreased by a modest amount—an average of roughly 0.01degrees Celsius, based on an albedo increase of .003 averaged over all global land surfaces. This relatively small temperature reduction is an indication that implementing cool surfaces can be only part of the solution to the global climate change problem, the researchers say. To put the number in context, consider that global temperatures are estimated to increase about 3 degrees Celsius in the next 40 to 60 years if CO2 emissions continue rising as they have. Preventing that warming would necessitate a 0.05 degree Celsius annual decrease in temperature between now and 2070.
Thus, even modest changes should not be dismissed. “Simply put, a cool roof will save money for homeowners and businesses through reduced air conditioning costs. The real question is not whether we should move toward cool roof technology: it’s why we haven’t done it sooner,” says Rosenfeld.
Other Studies Reach Similar Conclusions
Another recent study on cool roofs, led by Keith Oleson at the National Center for Atmospheric Research (NCAR) and published in Geophysical Research Letters, found that if every roof were painted entirely white, the CO2 emission offsets would be approximately 32 Gt for summer and about 30 Gt annually. While the NCAR study used a different model, the calculated CO2 emission offsets are similar to the results from the Berkeley Lab study and provide a useful and independent verification of the expected CO2 emission offsets from increasing the reflectivity of roofs.
Some observers have pointed out that cool roofs do not make sense in cooler climates because of “winter penalties,” since cooler buildings require more energy to heat. However, the energy savings from cooler buildings usually outweighs any increase in heating costs. Furthermore, in winter, there tends to be more cloud cover; also, the sun is lower and the days are shorter, so a flat roof’s exposure to the sun is significantly reduced.
“Cool roofs have worked for thousands of years in the Mediterranean and Middle Eastern cities, where demand for air conditioning is low,” says Akbari. “If you have a cool roof on your house, that will reduce your energy use from air conditioning and it’s a gift that keeps on giving for many, many years, for the life of the roof.”
Berkeley Lab is a U.S. Department of Energy national laboratory located in Berkeley, California. It conducts unclassified scientific research for DOE’s Office of Science and is managed by the University of California. Visit our website at www.lbl.gov/ [3].
[4]The surface of a black roof (left) heats up 78F above the air temperature, while the surface of a white roof (right) heats up only 12F. Additionally, with a black roof, far more heat flows both to the city and into the atmosphere (arrow lengths are proportional to energy radiated).
Additional information:
- Read the DOE Cool Roofs annnouncement here [5].
- Video glossary entry: Cool Roof [6]
- Read the 2010 paper by Surabi Menon, Hashem Akbari, Sarith Mahanama, Igor Sednev and Ronnen Levinson, “Radiative forcing and temperature response to changes in urban albedos and associated CO2 offsets” [7]
- Download the 2008 paper by Hashem Akbari, Surabi Menon and Art Rosenfeld, “Global cooling: increasing world-wide urban albedos to offset CO2” here [8].
Article printed from Berkeley Lab News Center: http://newscenter.lbl.gov
URL to article: http://newscenter.lbl.gov/news-releases/2010/07/19/cool-roofs-offset-carbon-dioxide-emissions/
URLs in this post:
[1] Image: http://newscenter.lbl.gov/wp-content/uploads/roof-solano-gov-center-CEC.jpg
[2] Image: http://newscenter.lbl.gov/wp-content/uploads/Cool-Pavement-ASU.png
[3] www.lbl.gov/: http://www.lbl.gov/
[4] Image: http://newscenter.lbl.gov/wp-content/uploads/White-Roof-Alliance-single-10.png
[5] here: http://energy.gov/news/9225.htm
[6] Cool Roof: http://videoglossary.lbl.gov/2009/cool-roof/
[7] “Radiative forcing and temperature response to changes in urban albedos and associated CO2 offsets”: http://www.iop.org/EJ/article/1748-9326/5/1/014005/erl10_1_014005.html
[8] here: http://www.energy.ca.gov/2008publications/CEC-999-2008-020/CEC-999-2008-020.PDF
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fine, but what if you want to stay warm in winter? i’m in colorado, i have a dark roof.
Painting roofs of tall buildings in large cities with a high rise profile white (in cities such as New York or Tokyo for example) has less of an effect on the local climate because the heating effect from a dark roof is confined primarily to the top floor or two. For such cities building color probably has a greater effect on urban temperatures than rooftop color and the use of smart glass clad buildings in such cities may be even better than having light building colors.
Heyyy, you need a punch in the kisser? This is our turf. Find your own comedy genre.
Thanks but no thanks. Our nighttime temps in NE Oregon are still in the 40’s. Without my black roof, I would be turning the heat on in SUMMER!!! And I sure as hell need it in winter.
Invest in Titanium dioxide,
Titanium dioxide is the most widely used white pigment because of its brightness and very high refractive index (n = 2.7), in which it is surpassed only by a few other materials.
JT
Up north we have more heating days than cooling. I’ll keep my dark roof.
“increasing the reflectivity of roof and pavement materials in cities with a population greater than 1 million would achieve a one-time offset of 57 gigatons ”
One-time offeset? Wtf?? How does that work?
No wonder they’re pushing this: They’ve got whitewash by the carload.
White painted world eh?
All that Ti oxide down the drain…
I reject the entire AGW theory and I don’t see any reason why should take this “solution” to a non existing problem seriously.
There is no justification for any solution if the problem is non existing.
Besides that, I rather live in a nice warm city than a cold one.
tallbloke says:
July 19, 2010 at 4:17 pm
“[…]One-time offeset? Wtf?? How does that work?”
I guess it gets dirty after a while.
I just cannot believe how small minded and unthinking Steven Chu is.
How about they spend money on more important things that white roofs? Besides, warming isn’t happening. Cooling is.
the video I posted is Monckton laying out the case of Chu wanting roofs painted white.
I omitted a title
Fancy that; The Lawrence Berkeley National Lab; having delved into the inner recesses of the atomic nucleus; has now determined that white paint reflects more light than Tar Blacktop; and all these years, builders have been building houses with black tar paper roofs.
And here I thought that was so they would burn up faster than a tile roof would; and all the time it is that sneaky white paint.
Was it Tom Sawyer or Huckleberry Fin, who discovered the value of whitewashing?
I remember years ago when I traded in my Porsche 911-T for a Dodge Van; I picked the van coloring by walking around parking lots and putting my hand on cars; in a hot California Sun. Without exception; all metallic finish paint jobs were hot as hades; and the coolest I found was White paint; with lemon yellow a close second. So I went with a White yellow two tone paint job. My offshore fishing boat that I bought to tow with the van, was also a white and yellow paint job.
Now I know why I couldn’t find a boat with black painted decks.
Isn’t it wonderful what scientific breakthroughs we are getting for our tax dollars.
@ur momisugly stevengoddard says:
July 19, 2010 at 1:22 pm
I keep my roof white all winter. The white color keeps the house cold, raising the heating bills.”
So do I. It’s called snow. :))
{Polar Ice Cap says:
July 19, 2010 at 1:24 pm
How much do you save on air conditioning in the summer compared to how much more you will spend on heating in the winter?}
P I C, i design heating and cooling systems, it is ALWAYS less energy to heat a home then to cool it to modern North American standards. If you have no cooling, the upcharge in your heating should be minimal if your insulation package is good. As stated in the article, for those of us in the NH, winter heat gain is barely registered from the sun.
This is an idea that has been used in many parts of the world for a very long time with great results.
Low hanging fruit!
Well instead of putting solar stations in space, and beaming the energy down here; why not use that space power plant to run a huge set of lasers or other EM radiation generators that create just those LWIR wavelengths that CO2 absorbs, and phase lock to the natural radiation and cancel it out; in Bose noise cancellation fashion; so we neutralize all the LWIR in the atmosphere that CO2 can absorb.
That should fix the CO2 problem.
{Kay says:
July 19, 2010 at 4:59 pm
@ur momisugly stevengoddard says:
July 19, 2010 at 1:22 pm
I keep my roof white all winter. The white color keeps the house cold, raising the heating bills.”
So do I. It’s called snow. :)) }
Kay, actually snow is a great insulator, think igloos. If you have snow on your roof when it is minus 15 outside, it is actually helping to keep your heat in. You can always tell which homes have a good insulation package, as their roofs are the last to have snow on them.
The problem is that there is a LOT of flat urban roof. If you paint it all white, you might end up raising the albedo too much. For example, how many acres of flat roof space is there in Los Angeles, San Diego, Phoenix, Las Vegas, El Paso, Albuquerque, Dallas, etc. ? Now consider the appearance of that many acres of ice at those latitudes. Now add in all the flat roof space in the entire country.
Maybe it would be better to make them a color that more closely matches the summer albedo of the natural vegetation of the region of that city.
White roofs do NOT raise your heating bills in winter. In winter, the farther North you go, the less impact a white roof has in winter because:
1. As you get father North, the sun angle is lower anyway and you get very little heating on a flat roof in winter from the Sun.
2. As you get farther North, the days are much shorter in winter and daylight hours when you could possibly get any heating on that roof are very few, maybe an hour or two.
3. Your roof is probably white anyway from snow.
{dan says:
July 19, 2010 at 4:06 pm
Up north we have more heating days than cooling. I’ll keep my dark roof.}
Dan, if that theory were true, you would expect most dark roofs to melt the snow far longer then say your grass, until the “heat” of the surface was cold enough to allow the snow to settle
. This winter take the time to see if that happens.
Oh, and most elastomeric white roof coatings contain ceramic insulation spheres that actually add insulation to your roof giving you better heat retention to offset any difference.
dwb says:
July 19, 2010 at 3:39 pm
Seems to me Berkley just proved that UHI and land use is a significant contributor to global warming.
============================================================
Using their numbers, they are saying that all of global warming is caused by UHI.
If temps have increased about .7C because of global warming.
Their numbers say it should have increased 1C by UHI alone.
Energy Secretary Steven Chu has been behind a number of interesting solutions but for flat roof buildings it might make more sense to install a roof top garden or greenhouse. A white painted surface will pick-up soot from exhaust etc.
Getting rid of the asphalt road surface makes fixing potholes and roads more expensive. Asphalt is also recycled and essentially the heavy residue of the oil refining process – a waste product. I guess it could be surfaced with a clear sun block 😉