Using circular economy principles to recycle materials in guiding the design of a wet scrubber-reactor for indoor air disinfection from coronavirus and other pathogens.
作者: Clare Hoskins , Saurav Goel , Saurav Goel , Saurav Goel , Jurijs Ozolins
DOI: 10.1016/J.ETI.2021.101429
关键词:
摘要: An arduous need exists to discover rapid solutions avoid the accelerated spread of coronavirus especially through indoor environments like offices, hospitals, and airports. One such measure could be disinfect air, in environments. The goal this work is propose a novel design wet scrubber-reactor deactivate airborne microbes using circular economy principles. Based on Fenton's reaction mechanism, system proposed here will (bioaerosols) as SARS-CoV-2. relies highly porous clay-glass open-cell structure an easily reproducible cheap material. principle behind technique in-situ decomposition hydrogen peroxide into reactive oxygen species free radicals. high porosity tailored ceramic provides contact area between atomized oxygen, radicals supplied polluted air. shown comply with needs achieving sustainable development goals.
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