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Evaluation of Three Feasible Biodegradation Models for Food WasteEvaluation of Three Feasible Biodegradation Models for Food-Oriented Organic Waste

Other Titles
Evaluation of Three Feasible Biodegradation Models for Food-Oriented Organic Waste
Authors
Sung-Hyun Kwon조대철
Issue Date
2022
Publisher
한국청정기술학회
Keywords
Biodegradation; Enzymatic reaction; Food waste; Mathematical model
Citation
Clean Technology, v.28, no.1, pp 32 - 37
Pages
6
Indexed
KCI
Journal Title
Clean Technology
Volume
28
Number
1
Start Page
32
End Page
37
URI
https://scholarworks.gnu.ac.kr/handle/sw.gnu/1858
ISSN
1598-9712
2288-0690
Abstract
Food waste is produced from food factories, food services, and home kitchens. The generated mass reached 5.4 million tons/yearin 2020. The basic management technology for such waste has been biological degradation under an anaerobic environment. However, the whole process is intrinsically slow and considerably affected by the inner physicochemical properties of the wasteand other surrounding conditions, which makes optimization of the process difficult. The most promising options to counter thismassive generation of waste are eco-friendly treatments or recycling. As a preliminary step for these options, attempts were madeto evaluate the feasibility and usability of three simulative models based on reaction kinetics. Model (A) predicted relativechanges over reaction time for reactant, intermediate, and product. Overall, an increased reaction rate produced less intermediateand more product, thereby leading to a shorter total reaction time. Particle diminishing model (B) predicted reduction of the totalwaste mass. The smaller particles diminished faster along with the dominant effect of microbial reaction. In Model (C),long-chain cellulose was predicted to transform into reducing sugar. At a standard condition, 48% of cellulose molecules having105repeating units turned into reducing sugar after 100 h. Also it was found that the optimal enzyme concentration where thehighest amount of remnant sugar was harvested was 1 mg L-1
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