Cooling wood: Engineers create strong, sustainable solution for passive cooling

Cooling wood: Engineers create strong, sustainable solution for passive cooling
Researchers show the test device for assessing the heat-moving capabilities of the cooling wood. Credit: University of Maryland

What if the wood your house was made of could save your electricity bill? In the race to save energy, using a passive cooling method that requires no electricity and is built right into your house could save even chilly areas of the US some cash. Now, researchers at the University of Maryland and the University of Colorado have harnessed nature's nanotechnology to help solve the problem of finding a passive way for buildings to dump heat that is sustainable and strong.

Wood solves the problem—it is already used as a building material, and is renewable and sustainable. Using tiny structures found in —cellulose nanofibers and the natural chambers that grow to pass water and nutrients up and down inside a living tree—that specially processed wood has optical properties that radiate heat away. The results of this study were published May 9 in the journal Science.

"This work has greatly extended the use of wood towards high performance energy efficient applications and provided a sustainable route to combat the ," said Northeast Forestry University Professor Jian Li, a member of Chinese Academy of Engineering, who is not associated with the research.

At the University of Maryland, Liangbing Hu, co-first authors Tian Li and Shuaiming He and others in the department of science have been working with wood for many years. Hu's team has invented a range of emerging wood nanotechnologies, including a transparent wood, low cost wood batteries, super strong wood, super thermal insulating wood, and a wood-based water purifier.

"This is another major advancement in wood nanotechnologies that Hu group at University of Maryland achieved: cooling wood that is made of solely wood—that is, no any other component such as polymers—can cool your house as a green building material," said Dr. Hu.

The team at Boulder, led by Prof. Xiaobo Yin and including co-first author Yao Zhai, both of the of the department of mechanical engineering and the program of materials science at the University of Colorado in Boulder, have been working on materials for radiative cooling, including thin films and paints.

"When applied to building, this game-changing structural material cools without the input of electricity or water," Dr. Zhai said.

By removing the lignin, the part of the wood that makes it brown and strong, the UMD researchers created a very pale wood made of cellulose nanofibers. They then compressed the wood to restore its strength. To make it water repellent, they added a super hydrophobic compound that helps protect the wood. The result: a bright white that could be used for roofs to push away heat from inside the building.

Cooling wood: Engineers create strong, sustainable solution for passive cooling
A picture of the new bright white building material that rejects heat. Credit: University of Maryland

They took the cooling wood out into the ideal testing condition of a farm in Arizona where the weather is always warm and sunny, with low winds. There, they tested the cooling wood and found that it stayed, on average, five or six degrees F cooler than the ambient air temperature—even at the hottest part of the day, the cooling wood was chillier than air. It stayed on average 12 degrees cooler than natural wood, which warms up more in the presence of sunlight.

"The processed wood uses the cold universe as heat sink and release thermal energy into it via atmospheric transparency window. It is a sustainable material for sustainable energy to combat global warming" said Dr. Li.

The mechanical strength per weight of this wood is also stronger than steel, which makes it a great choice for materials. It is ten times stronger than natural wood and beats steel's strength, reaching 334 MPa·cm3/g (compared to 110 MPa·cm3/g for steel). It also damages less easily (scratch test) and can bear more weight (compression test) than natural wood.

Other collaborators include Jelena Srebric's team at the University of Maryland, College Park; Ronggui Yang's team at the University of Colorado, Boulder; and Ashlie Martini's team at the University of California Merced.

Cooling wood: Engineers create strong, sustainable solution for passive cooling
A nanoscale view of the wood’s natural nanostructures shows how the fibers are closely aligned in the direction the tree grew. Credit: University of Maryland

To see how much energy the wood saves, they calculated how much heat is used by typical apartment buildings in cities across the US in all climate zones. Hot cities like Phoenix and Honolulu would save the most energy, especially if older buildings had their siding and roofs replaced with cooling wood. Buildings across the US that were built after 2004, or now, would save on average 20% of cooling costs.

"Prof. Hu and collaborators show yet another use of wood that is not only structurally strong but useful as active component for energy management. It is interesting that the same material that releases heat upon combustion can be used for , offering new opportunities in green buildings," said Orlando Rojas, a professor in the department of Bioproducts and Biosystems at Aalto University, Finland.

More information: A company co-founded by Dr. Hu, Inventwood, is focusing on the commercialization of these advanced wood nanotechnologies (www.inventwood.com).  
Tian Li et al. A radiative cooling structural material, Science (2019). DOI: 10.1126/science.aau9101

Journal information: Science

Citation: Cooling wood: Engineers create strong, sustainable solution for passive cooling (2019, May 24) retrieved 29 March 2024 from https://phys.org/news/2019-05-cooling-wood-strong-sustainable-solution.html
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