Chinese scientists invent new passive cooling of buildings

Combo photo taken on Oct. 7, 2020 shows the skyscrapers supported by the No. 10 centralized cooling station

(top) and the inside view of the No. 10 centralized cooling station (bottom) in China (Guangdong) Pilot Free Trade Zone Qianhai & Shekou Area in Shenzhen, south China's Guangdong Province. [Photo/Xinhua]

A group of Chinese scientists found a new type of ceramic materials to realize passive cooling of buildings and save energy consumed by air conditioners, according to the recent issue of the journal Science.

The electricity used by cooling systems accounts for about 10 percent of global electricity consumption. Therefore, developing new cooling technologies for saving energy and promoting carbon neutrality is crucial.

Radiative sky cooling is a passive cooling technology that emits heat to outer space through the atmospheric window from 8 to 13 micrometers. If the radiated heat is greater than the solar energy absorbed, then daytime radiative cooling is achieved without any energy input.

The research team, led by Prof. Zhao Dongliang from the School of Energy and Environment at China's Southeast University, analyzed the optical characteristics of different materials in the solar and infrared bands based on their crystal structure.

They put forward that ceramics mainly composed of alumina and silica with certain structural designs could achieve radiative sky cooling of buildings by a high sunlight reflection rate and high emissions of infrared radiation. Moreover, such ceramics are durable, thermostable, and water-resistant.

The study also introduced examples of such ceramic radiative cooling materials. After using such materials on the building roof, the energy consumption of air conditioners inside the building can be reduced by 26.8 percent compared with buildings using ordinary white paint.

The study said further research will be carried out to realize the massive production of such materials at a low cost.