Bio-enriched composite materials derived from waste cooking oil for selective reduction of odour intensity

Currently, pathogenic microorganisms are becoming more active in public utility areas like parking lots and waste shelters due to the accumulation of organic waste. This uncontrolled waste leads to decay, altering its composition and presenting a microbiological risk to public health. Additionally,...

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Bibliographic Details
Published in:Scientific reports 2024-07, Vol.14 (1), p.16311-13, Article 16311
Main Authors: Staroń, Anita, Chwastowski, Jarosław, Kijania-Kontak, Magda, Wiśniewski, Marek, Staroń, Paweł
Format: Article
Language:English
Subjects:
639/301
704/172
Additive
Additives
Ammonia
Ammonia - chemistry
Animals
Composite materials
Composites
Cooking
Cooking oils
Humanities and Social Sciences
Meat
Microorganisms
multidisciplinary
Odor control
Odor intensity
Odorants - analysis
Odors
Odour
Organic wastes
Physicochemical properties
Public health
Public utility districts
Quality of life
Salicylic acid
Science
Science (multidisciplinary)
Structure
Thymol
Trigeminal nerve
Waste cooking oil
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Summary:Currently, pathogenic microorganisms are becoming more active in public utility areas like parking lots and waste shelters due to the accumulation of organic waste. This uncontrolled waste leads to decay, altering its composition and presenting a microbiological risk to public health. Additionally, it emits unpleasant odors containing chemicals that irritate the mucous membranes, causing discomfort in the nose, throat, and eyes by stimulating the trigeminal nerve. These odors can have various negative effects on both quality of life and public health. The study investigated the physicochemical properties of oil composites enriched with natural additives and determined their effectiveness in reducing the intensity of nuisance odours. The research showed over 82% reduction in decaying meat odour and almost 65% reduction in ammonia odour. A higher impact of the given composites on reducing the odour from decaying meat than from ammonia was observed. This may be due to the biocidal properties of the additives used (turmeric, thymol, salicylic acid, hops and curly sorrel) and the higher intensity of ammonia odor compared to meat-derived odour. Despite the non-porous nature of the solids tested (with similar specific surface areas ranging from 0.66 to 0.88 m 2 /g), they were capable of sorbing NH 3 .
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-67302-4