Passive radiative cooling in unventilated and ventilated enclosures
(A) View of an experimental cooling container used by Trombe and his team in Mont-Louis, France, undated.
(B) Diagrammatic vertical section of Trombe’s patented design for the cold house, 1967.
(C) North-east view showing the radiative cooling facade of the cold house designed and built by Felix Trombe and his team in 1963–1963 in Odeillo, France.25
(D) Schematic drawing of the Skytherm system during the day with the movable insulation covering the roof (left), and during the night with the water-filled bags exposed to the cold-infrared sky (right).
(E) Harold Hay and John I. Yellott in front of a prototype of the Skytherm system built in Pheonix, Arizona in 1967.
(F) Schematic of our test box, reproducing 1% of the thermal loads, losses, and air changes attributable to one occupant.
(G) Schematic of the proportions of the thermal mass, radiator, and ventilation openings needed for one occupant.
As the planet gets hotter, the need for cool living environments is becoming more urgent. But air conditioning is a major contributor to global warming since units use potent greenhouse gases and lots of energy.
Now, researchers from McGill University, UCLA and Princeton have found in a new study an inexpensive, sustainable alternative to mechanical cooling with refrigerants in hot and arid climates, and a way to mitigate dangerous heat waves during electricity blackouts.
The researchers set out to answer how to achieve a new benchmark in passive cooling inside naturally conditioned buildings in hot climates such as Southern California. They examined the use of roof materials that radiate heat into the cold universe, even under direct sunlight, and how to combine them with temperature-driven ventilation. These cool radiator materials and coatings are often used to stop roofs overheating. Researchers have also used them to improve heat rejection from chillers. But there is untapped potential for integrating them into architectural design more fully, so they can not only reject indoor heat to outer space in a passive way, but also drive regular and healthy air changes.
“We found we could maintain air temperatures several degrees below the prevailing ambient temperature, and several degrees more below a reference ‘gold standard’ for passive cooling,” said Remy Fortin, lead author and PhD candidate at the Peter Guo-hua Fu School of Architecture “We did this without sacrificing healthy ventilation air changes.” This was a considerable challenge, considering air exchanges are a source of heating when the aim is to keep a room cooler than the exterior.
The researchers hope the findings will be used to positively impact communities suffering from dangerous climate heating and heat waves. “We hope that materials scientists, architects, and engineers will be interested in these results, and that our work will inspire more holistic thinking for how to integrate breakthroughs in radiative cooling materials with simple but effective architectural solutions,” said Salmaan Craig, Principal Investigator for the project and Assistant Professor at the Peter Guo-hua Fu School of Architecture.
Original Article: A sustainable alternative to air conditioning
More from: McGill University | University of California Los Angeles | Princeton University
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