I find it humorous thatUCAR had to resort to modeling to prove something that can be measured empirically. But then again this is UCAR, and they have a big computer at their NCAR office. Painting roofs white would probably help cool NOAA weather stations that are positioned on rooftops, like this one on the roof of the Santa Ana fire station in southern California, with surroundings that look a lot like the photo provided with the press release shown below. – Anthony
Santa Ana Station looking North. Click for a larger image
Computer model demonstrates that white roofs may successfully cool cities
BOULDER—Painting the roofs of buildings white has the potential to significantly cool cities and mitigate some impacts of global warming, a new study indicates. The new NCAR-led research suggests there may be merit to an idea advanced by U.S. Energy Secretary Steven Chu that white roofs can be an important tool to help society adjust to climate change.
But the study team, led by scientists at the National Center for Atmospheric Research (NCAR), cautions that there are still many hurdles between the concept and actual use of white roofs to counteract rising temperatures.
“Our research demonstrates that white roofs, at least in theory, can be an effective method for reducing urban heat,” says NCAR scientist Keith Oleson, the lead author of the study. “It remains to be seen if it’s actually feasible for cities to paint their roofs white, but the idea certainly warrants further investigation.”
The study is slated for publication later this winter in Geophysical Research Letters. It was funded by the National Science Foundation, NCAR’s sponsor.
Cities are particularly vulnerable to climate change because they are warmer than outlying rural areas. Asphalt roads, tar roofs, and other artificial surfaces absorb heat from the Sun, creating an urban heat island effect that can raise temperatures on average by 2-5 degrees Fahrenheit (about 1-3 degrees Celsius) or more compared to rural areas. White roofs would reflect some of that heat back into space and cool temperatures, much as wearing a white shirt on a sunny day can be cooler than wearing a dark shirt.
The study team used a newly developed computer model to simulate the amount of solar radiation that is absorbed or reflected by urban surfaces. The model simulations, which provide scientists with an idealized view of different types of cities around the world, indicate that, if every roof were entirely painted white, the urban heat island effect could be reduced by 33 percent. This would cool the world’s cities by an average of about 0.7 degrees F, with the cooling influence particularly pronounced during the day, especially in summer.
The authors emphasize that their research should be viewed as a hypothetical look at typical city landscapes rather than the actual rooftops of any one city. In the real world, the cooling impact might be somewhat less because dust and weathering would cause the white paint to darken over time and parts of roofs would remain unpainted because of openings such as heating and cooling vents.
In addition, white roofs would have the effect of cooling temperatures within buildings. As a result, depending on the local climate, the amount of energy used for space heating and air conditioning could change, which could affect both outside air temperatures and the consumption of fossil fuels such as oil and coal that are associated with global warming. Depending on whether air conditioning or heating is affected more, this could either magnify or partially offset the impact of the roofs.
“It’s not as simple as just painting roofs white and cooling off a city,” Oleson says.
More cooling for certain cities
The research indicated that some cities would benefit more than others from white roofs, depending on such factors as:
- Roof density. Cities where roofs make up more of the urban surface area would cool more.
- Construction. Roofs that allow large amounts of heat from the Sun to penetrate the interior of a building (as can happen with metal roofs and little insulation) are less effective in cooling outside temperatures when painted white.
- Location. White roofs tend to have a larger impact in relatively warm climates that receive strong, year-round sunlight.
While the model did not have enough detail to capture individual cities, it did show the change in temperatures in larger metropolitan regions. The New York area, for example, would cool in summer afternoons by almost 2 degrees Fahrenheit.
A new technique
The study team used a new computer model, developed by Oleson and colleagues, that is designed to assess the impacts of a changing climate on urban populations and explore options for countering rising temperatures. This urban canyon model simulates temperature changes in city landscapes, capturing such factors as the influence of roofs, walls, streets, and green spaces on local temperatures. Oleson has successfully linked it to a computer simulation of worldwide climate, the NCAR-based Community Climate System Model, thereby enabling researchers to study the interactions between global climate change and urban areas.
The new model does not yet have the power to replicate the architecture and design of specific cities. Instead, the research team created abstractions of cities in the model, using classes of population density, urban design, and building construction. Oleson and his colleagues plan to continue refining the model to provide more information for policymakers concerned about protecting urban populations from the risks associated with heat waves and other changes in climate.
“It’s critical to understand how climate change will affect vulnerable urban areas, which are home to most of the world’s population,” says NCAR scientist Gordon Bonan, a co-author of the study.
About the article
Title:
The Effects of White Roofs on Urban Temperature in a Global Climate Model
Authors:
Keith Olson, Gordon Bonan, Johannes Feddema
Publication:
Discover more from Watts Up With That?
Subscribe to get the latest posts sent to your email.
So they waste our tax dollars on science that will only lead to cap and trade, thus taxing us more.
Bravo, you scummy fraudsters.
White paints are made either from lime –water based, good for walls but not too good for roofs. Or made with titanium pigments, as in sun blocking creams. Both products come from mining and especially lime, those processes are big CO2 emmiters.
It boils down that what you save on heat and fuel will be put again into the atmosphere by lime manufacturing and titanium mining.
It is like swapping a $500.000 dog for two $250.000 kittens. But they will be creating “jobs” Ha!
“Cities are particularly vulnerable to climate change because they are warmer than outlying rural areas.”
Cities can have “climate change”, yet the MWP was “regional”????!!!
Can’t we just wear tin-foil hats again ?
PSSHAAAA – RC and Consensus science tells us UHI doesn’t exist
Nothing to see here, move along…
“Andy Scrase (14:29:30) :
[…]
“Mr Figgis is no ordinary idiot, he is a lecturer in idiocy at the University of East Anglia”
”
Priceless. Begs the question: Was the UEA’s reputation already that bad back then?
Agree that this is being done in a silly way by UCAR. Also second the questions about using solar panel arrays to intercept the light. Developing that point (and the changeable color idea, above), has any of these people ever used a tent fly? It would be interesting to try a white fly that is mounted over a black roof; the fly is used for hot months, then taken down in colder ones so the roof can soak up the energy. If you oriented the fly, you might even get some useful convection effects? Admittedly this is finicky, labor-intensive (although we might see some good innovation with self-furling sails etc.) and a fly might blow out or be baked to shreds in a few years. Still, I’m curious.
And Cristo would have a ball with the aesthetic.
It is comforting to have a new computer model that predicts well known facts:
http://www.pbase.com/alejandror/white_village
http://www.andalucianpics.com/Illustrations/White%20villages/indexwhite.htm
KeithGuy (13:43:13) : Re: painting coal, to keep it from being seen from the air while in transport?
A quick scan of results for the titanium dioxide market, the pigment in white paint, shows reports of worldwide price increases. 3-4% for a quarter.
http://www.icis.com/V2/Chemicals/9076545/titanium-dioxide/pricing.html
“has the potential to significantly cool cities”
A. still convinced it’s warming
B. still convinced they can control it
“there are still many hurdles between the concept and actual use”
A. can’t find a scientist that can paint??
B. need a grant to study it first
“Painting roofs white would probably help cool NOAA weather stations that are positioned on rooftops,….”
Anthony Watts
————————
“Our research demonstrates that white roofs, at least in theory, can be an effective method for reducing urban heat,…”
UCAR
———————
Oh the irony and hypocracy! UHI effect, PRWE (painting roofs white effect), PWWE (painting walls white effect – well known in the tropics).
Now let’s see. Lord Monkton assesses how much paint may be required and its costs. Most paints today are based on Acrylic resins. The resins are synthetic polymers derived from Acrylic acid, which in turn is derived from Propylene — a byproduct from oil refineries. How much extra petroleum needs to be refined to produce paint? But that means more CO2 in the atmosphere, doesn’t it?
Isn’t that a York Air Conditioner condensing unit partly visible to the right of the thermometer on the roof of the Santa Ana fire station? And what are those vents on those units to the left?
Maybe white roofs in Texas….and then gray up towards the North, and finally black in Canada. Would look nice from space!
hehe.
Titanium oxide coatings are best, they also remove nitric oxides from the air.
Off Topic (but hopefully interesting)
Littlejohn at Desmogblog is making a huge song and dance about Deep Climate’s expose of M&M’s Hockey Stick demoltion.
I have spent quite a lot of time trying to read through this and quite frankly, it seems to be absolute rubbish. I’m sure this guy has lost it big time, or am I missing something?
Interestingly though, I left a very critical comment which has been posted, yet completely ignored by their little club.
Perhaps they failed to understand it was critical.
This is technology is at least a couple millenniums old. applied frequently on Mediterranean architecture, commonly used on Spain, Italy, Greece, Morocco etc.
No paint is used, instead a mixture of sand, marble powder, quicklime (CaO) and water. This mixture produces a paint like product used to paint walls and roofs in white. The use of this product is not only for decoration purposes, but to reduce heat absorption also allows the walls transpiration, avoiding humidity to build up on them, which is very useful near the coast.
http://www.graymont.com/applications_history_lime_mortar.shtml
KeithGuy (13:43:13)
Painting coal…
OK, Keith, you’ve kept the turkeys in suspense long enough….
REPLY: I think it was for dust reduction. The calcium carbonate would form a thin shell. Coal dust explosions can be a problem. There’s also a mention that is was used as a theft deterrent, much like odd color spare tires on rental vehicles. – Anthony
someone mentioned putting a reflective metal on the roof, that would work, but.. i live under a major airlane, planes go over my house couple of times an hour, and quite low. could that have an effect in the atmosphere?
We would need an international panel deciding the gray-scale based on lattitude …..hmmmmm
International Paint Commission Conglomerate ?
@ur momisugly KeithGuy (13:43:13) :
To prevent the theft of coal belonging to the railways!
Stacey (13:32:00) : “Sorry the point is already made. I should have read more carefully.”
The point was easily missed, since they seem to be underplaying the problem of lower solar heating in winter. I was looking for that specifically, and it still took a while to find.
I studied this sort of thing about 50 years ago. You need a coating that is white in summer and black in winter. Any ideas?
Please don’t scream.
Al Gore Climategate Downfall
[snip – we don’t post the Hitler parody videos here for the same reason we don’t like being associated with holocaust deniers]
I don’t know how common it is, but many larger buildings in Boulder have the AC units on the roof. Having a surface that doesn’t get as hot before reflecting or emitting solar energy back in the summer would be a good thing on these buildings. Winter sun is not very high, I don’t believe roof color, on a typical commercial flat roof would have all that much effect on heat gain. Plus if the climate is cold enough for that to be an effect one would hope there is roof insulation that would cancel it out. I would expect that the greatest effect is seen in reducing the local heat island effect around big AC units. Its the kind of conservation principle I’d always favor.
But studying things only with computer models? I believe that is how the idea of catastrophic warming cascades took hold and it is a generally dumb way to approach things. Models will always have simplifying assumptions and one needs to measure and test and retest as more measurements can be taken that the assumptions are valid.
Well thank goodness for computer MODELS. Clearly it must be true then. I wonder if NCAR has considered telling the Mediterranean folk what their models have “discovered”.