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Mathematical model for carbon dioxide evolution from the thermophilic composting of synthetic food wastes made of dog food

Journal Article · · Waste Management
 [1];  [1];  [1]
  1. Department of Safety, Health and Environmental Engineering, National Kaohsiung First University of Science and Technology, Kaohsiung, Taiwan (China)
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The impacts of the aeration and the agitation on the composting process of synthetic food wastes made of dog food were studied in a laboratory-scale reactor. Two major peaks of CO{sub 2} evolution rate were observed. Each peak represented an independent stage of composting associated with the activities of thermophilic bacteria. CO{sub 2} evolutions known to correlate well with microbial activities and reactor temperatures were fitted successfully to a modified Gompertz equation, which incorporated three biokinetic parameters, namely, CO{sub 2} evolution potential, specific CO{sub 2} evolution rate, and lag phase time. No parameters that describe the impact of operating variables are involved. The model is only valid for the specified experimental conditions and may look different with others. The effects of operating parameters such as aeration and agitation were studied statistically with multivariate regression technique. Contour plots were constructed using regression equations for the examination of the dependence of CO{sub 2} evolution potentials on aeration and agitation. In the first stage, a maximum CO{sub 2} evolution potential was found when the aeration rate and the agitation parameter were set at 1.75 l/kg solids-min and 0.35, respectively. In the second stage, a maximum existed when the aeration rate and the agitation parameter were set at 1.8 l/kg solids-min and 0.5, respectively. The methods presented here can also be applied for the optimization of large-scale composting facilities that are operated differently and take longer time.

OSTI ID:
20875643
Journal Information:
Waste Management, Journal Name: Waste Management Journal Issue: 10 Vol. 25; ISSN WAMAE2; ISSN 0956-053X
Country of Publication:
United States
Language:
English

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Related Subjects

60 APPLIED LIFE SCIENCES
AERATION
BACTERIA
CARBON DIOXIDE
COMPOSTING
DOGS
FOOD
MULTIVARIATE ANALYSIS
WASTES