Also posted in technology, as I could not figure whether it better fit here or there. It's relevant to both.
This Ultra-White Paint May Someday Replace Air Conditioning
Developed by researchers at Purdue University, the paint reflects 98.1 percent of sunlight
Smithsonian Magazine
Sarah Kuta
Read when you’ve got time to spare.
freestar
Smithsonian Magazine
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freestar
a paint roller with white paint
A new coat of paint is an easy way to freshen up your home’s curb appeal. Soon, it may also help keep your house cool.
Researchers at Purdue University have developed a new ultra-white paint that reflects 98.1 percent of sunlight and can keep surfaces up to 19 degrees Fahrenheit cooler than their ambient surroundings. This new paint, which may become available for purchase in the next year or two [this article was written in 2021], could someday help combat global warming and reduce our reliance on air conditioners.
The team of scientists in Purdue’s mechanical engineering department published the findings of their paint research, funded by the university’s cooling technologies research center and the Air Force’s scientific research office, in the journal ACS Applied Materials & Interfaces.
“Our paint only absorbs 1.9 percent of the sunlight, whereas commercial paint absorbs 10 to 20 percent of sunlight,” says Xiulin Ruan, a Purdue mechanical engineering professor and one of the study’s co-authors.
The paint is a marked improvement from current heat-rejecting paints on the market. When struck by the sun’s rays, surfaces covered in today’s available white paints get warmer, not cooler. At best, these heat-combatting paints can reflect 80 to 90 percent of sunlight, says Ruan.
The new ultra-white paint, which the researchers say is the coolest on record, reflects nearly all of the sun’s rays and sends infrared heat away from the surface, providing an average cooling power of 113 watts per square meter. If painted onto the roof of a 1,000-square-foot home, that translates to a cooling power of 10 kilowatts, which is more powerful than most residential central air conditioners, Ruan says.
In tests conducted during sunny, midday hours on the roof of a campus building in West Lafayette, Indiana, the paint kept outdoor surfaces 8 degrees cooler than the ambient surrounding temperatures. At night, the paint kept surfaces 19 degrees cooler than their surroundings.
“Our paint can lose heat by its own emission—it emits heat to deep space,” Ruan says. “With such little absorption from the sun, our paint loses more heat than it absorbs. This is really exciting for us. Under the sun, it cools below the ambient temperature and that’s hard to achieve.”
Heat-rejecting white paints on the market now are typically made with titanium dioxide, which reflects certain wavelengths of sunlight—mainly, the visible light and near-infrared wavelengths—but absorbs the sun’s ultraviolet rays, causing the surface to heat up, Ruan says.
“Commercial white paints are cooler than the other, darker-colored paints, but they are still warmer than the ambient or surrounding temperature,” Ruan says.
These existing paints are better than nothing, but the researchers wanted to experiment with materials that could reflect, rather than absorb, the sun’s UV rays. They tested more than 100 different materials over the past seven years, eventually narrowing down their selection to barium sulfate, a known UV-reflecting compound that was already being used in cosmetics, reflective photo paper, oil paints, x-ray examinations and other applications. (Along the way, they also developed an earlier ultra-white paint made from calcium carbonate that reflected 95.5 percent of sunlight.)
Though barium sulfate was a good starting point, the researchers also took two novel steps to enhance the paint’s ability to reflect light and emit heat: They used a high concentration of barium sulfate particles—60 percent compared to the typical 10 percent in current paints—and they incorporated particles of varying sizes.
“We found that if you put different particle sizes in your paint, then each particle size can scatter and reflect different wavelengths and, all together, they reflect the entire spectrum of wavelengths in sunlight,” Ruan says.
The potential benefits of the ultra-white paint are two-fold. By keeping surfaces cool and reducing the use of air conditioners, which are typically powered by electricity, the paint may help decrease the burning of fossil fuels. What’s more, air conditioners typically work by removing heat from indoor spaces and pushing it outdoors, a method known as convection. This heat transfer, along with other causes, can contribute to the urban heat island effect, a phenomenon that occurs when cities become hotter than the surrounding areas, thus requiring even more air conditioning. The ultra-white paint, on the other hand, uses radiation to transfer heat, sending out types of electromagnetic waves that can pass through the atmosphere and into deep space.
“Air conditioners can cool your house, but they move the heat from inside the house to outside—the heat is still in the city, it’s still on the Earth, in our air,” Ruan says. “So even if you don’t care about the power bills you pay, it’s going to warm up the Earth anyway. Our paint does not use any power but, more importantly, it sends the heat to space. The heat doesn’t stay on the Earth, so that really helps the Earth to cool down and can stop the warming trend.”
Using statistical modeling, the researchers estimated that their ultra-white paint could reduce air conditioning use by up to 70 percent in hot cities like Reno, Nevada, and Phoenix, Arizona. In a rather extreme model, they also found that covering 0.5 to 1 percent of the Earth’s surface—buildings, roads, unused land, just about everything—with the ultra-white paint would be enough to stop the global warming trend.
“It’s a lot of area, but if one day we need to use this approach to help reverse the warming trend, it’s still affordable—the paint is not expensive,” Ruan says.
The researchers have applied for a patent, and they’re doing additional testing to understand the paint’s long-term durability and reliability outdoors as they work toward making the paint available to consumers. They haven’t yet determined an exact price for the paint, but Ruan says he expects the paint to be similar to those on the market now—roughly $30 to $40 per gallon.
In the meantime, it’s easy for sustainable building experts to envision the potential future impacts of this invention.
“When I first heard about it, I was imagining, ‘Wow, this could be utilized in all sorts of different urban conditions in the U.S. and internationally,’” says Elizabeth Thompson, a vice president with the U.S. Green Building Council. “Just that potential is so strong and compelling. It’ll be great to see how this evolves and how the researchers are able to develop its applications.”
The U.S. Green Building Council, a nonprofit that developed the Leadership in Energy and Environmental Design (LEED) rating system for sustainable buildings, offers a heat island reduction credit for buildings working toward LEED certification levels.
One way buildings can earn that credit is to use materials or devices with an initial solar reflectance of 33 percent at installation or 28 percent over three years, Thompson says. With the ultra-white paint’s 98.1 percent solar reflectance, it far exceeds those requirements.
“This is just a whole different ballpark of cooling, which is very exciting,” Thompson says. “It’s hopeful. This is the kind of thing that we all hope scientists and researchers will help us to discover, opportunities that we didn’t know existed for how to live more sustainably.”
Sarah Kuta is a writer and editor based in Longmont, Colorado. She covers history, science, travel, food and beverage, sustainability, economics and other topics.
https://getpocket.com/explore/item/this-...ket-newtab
This Ultra-White Paint May Someday Replace Air Conditioning
Developed by researchers at Purdue University, the paint reflects 98.1 percent of sunlight
Smithsonian Magazine
Sarah Kuta
Read when you’ve got time to spare.
freestar
Smithsonian Magazine
More from Smithsonian Magazine
Why Are All Swedish Cottages Painted Red?
After the Dinosaur-Killing Impact, Soot Played a Remarkable Role in Extinction
This 17-Year-Old Designed a Motor That Could Potentially Transform the Electric Car Industry
freestar
a paint roller with white paint
A new coat of paint is an easy way to freshen up your home’s curb appeal. Soon, it may also help keep your house cool.
Researchers at Purdue University have developed a new ultra-white paint that reflects 98.1 percent of sunlight and can keep surfaces up to 19 degrees Fahrenheit cooler than their ambient surroundings. This new paint, which may become available for purchase in the next year or two [this article was written in 2021], could someday help combat global warming and reduce our reliance on air conditioners.
The team of scientists in Purdue’s mechanical engineering department published the findings of their paint research, funded by the university’s cooling technologies research center and the Air Force’s scientific research office, in the journal ACS Applied Materials & Interfaces.
“Our paint only absorbs 1.9 percent of the sunlight, whereas commercial paint absorbs 10 to 20 percent of sunlight,” says Xiulin Ruan, a Purdue mechanical engineering professor and one of the study’s co-authors.
The paint is a marked improvement from current heat-rejecting paints on the market. When struck by the sun’s rays, surfaces covered in today’s available white paints get warmer, not cooler. At best, these heat-combatting paints can reflect 80 to 90 percent of sunlight, says Ruan.
The new ultra-white paint, which the researchers say is the coolest on record, reflects nearly all of the sun’s rays and sends infrared heat away from the surface, providing an average cooling power of 113 watts per square meter. If painted onto the roof of a 1,000-square-foot home, that translates to a cooling power of 10 kilowatts, which is more powerful than most residential central air conditioners, Ruan says.
In tests conducted during sunny, midday hours on the roof of a campus building in West Lafayette, Indiana, the paint kept outdoor surfaces 8 degrees cooler than the ambient surrounding temperatures. At night, the paint kept surfaces 19 degrees cooler than their surroundings.
“Our paint can lose heat by its own emission—it emits heat to deep space,” Ruan says. “With such little absorption from the sun, our paint loses more heat than it absorbs. This is really exciting for us. Under the sun, it cools below the ambient temperature and that’s hard to achieve.”
Heat-rejecting white paints on the market now are typically made with titanium dioxide, which reflects certain wavelengths of sunlight—mainly, the visible light and near-infrared wavelengths—but absorbs the sun’s ultraviolet rays, causing the surface to heat up, Ruan says.
“Commercial white paints are cooler than the other, darker-colored paints, but they are still warmer than the ambient or surrounding temperature,” Ruan says.
These existing paints are better than nothing, but the researchers wanted to experiment with materials that could reflect, rather than absorb, the sun’s UV rays. They tested more than 100 different materials over the past seven years, eventually narrowing down their selection to barium sulfate, a known UV-reflecting compound that was already being used in cosmetics, reflective photo paper, oil paints, x-ray examinations and other applications. (Along the way, they also developed an earlier ultra-white paint made from calcium carbonate that reflected 95.5 percent of sunlight.)
Though barium sulfate was a good starting point, the researchers also took two novel steps to enhance the paint’s ability to reflect light and emit heat: They used a high concentration of barium sulfate particles—60 percent compared to the typical 10 percent in current paints—and they incorporated particles of varying sizes.
“We found that if you put different particle sizes in your paint, then each particle size can scatter and reflect different wavelengths and, all together, they reflect the entire spectrum of wavelengths in sunlight,” Ruan says.
The potential benefits of the ultra-white paint are two-fold. By keeping surfaces cool and reducing the use of air conditioners, which are typically powered by electricity, the paint may help decrease the burning of fossil fuels. What’s more, air conditioners typically work by removing heat from indoor spaces and pushing it outdoors, a method known as convection. This heat transfer, along with other causes, can contribute to the urban heat island effect, a phenomenon that occurs when cities become hotter than the surrounding areas, thus requiring even more air conditioning. The ultra-white paint, on the other hand, uses radiation to transfer heat, sending out types of electromagnetic waves that can pass through the atmosphere and into deep space.
“Air conditioners can cool your house, but they move the heat from inside the house to outside—the heat is still in the city, it’s still on the Earth, in our air,” Ruan says. “So even if you don’t care about the power bills you pay, it’s going to warm up the Earth anyway. Our paint does not use any power but, more importantly, it sends the heat to space. The heat doesn’t stay on the Earth, so that really helps the Earth to cool down and can stop the warming trend.”
Using statistical modeling, the researchers estimated that their ultra-white paint could reduce air conditioning use by up to 70 percent in hot cities like Reno, Nevada, and Phoenix, Arizona. In a rather extreme model, they also found that covering 0.5 to 1 percent of the Earth’s surface—buildings, roads, unused land, just about everything—with the ultra-white paint would be enough to stop the global warming trend.
“It’s a lot of area, but if one day we need to use this approach to help reverse the warming trend, it’s still affordable—the paint is not expensive,” Ruan says.
The researchers have applied for a patent, and they’re doing additional testing to understand the paint’s long-term durability and reliability outdoors as they work toward making the paint available to consumers. They haven’t yet determined an exact price for the paint, but Ruan says he expects the paint to be similar to those on the market now—roughly $30 to $40 per gallon.
In the meantime, it’s easy for sustainable building experts to envision the potential future impacts of this invention.
“When I first heard about it, I was imagining, ‘Wow, this could be utilized in all sorts of different urban conditions in the U.S. and internationally,’” says Elizabeth Thompson, a vice president with the U.S. Green Building Council. “Just that potential is so strong and compelling. It’ll be great to see how this evolves and how the researchers are able to develop its applications.”
The U.S. Green Building Council, a nonprofit that developed the Leadership in Energy and Environmental Design (LEED) rating system for sustainable buildings, offers a heat island reduction credit for buildings working toward LEED certification levels.
One way buildings can earn that credit is to use materials or devices with an initial solar reflectance of 33 percent at installation or 28 percent over three years, Thompson says. With the ultra-white paint’s 98.1 percent solar reflectance, it far exceeds those requirements.
“This is just a whole different ballpark of cooling, which is very exciting,” Thompson says. “It’s hopeful. This is the kind of thing that we all hope scientists and researchers will help us to discover, opportunities that we didn’t know existed for how to live more sustainably.”
Sarah Kuta is a writer and editor based in Longmont, Colorado. She covers history, science, travel, food and beverage, sustainability, economics and other topics.
https://getpocket.com/explore/item/this-...ket-newtab
The ideal subject of totalitarian rule is not the convinced Nazi or the dedicated Communist but instead the people for whom the distinction between fact and fiction, true and false, no longer exists -- Hannah Arendt.