Optimization of biomass and biokinetic constant in Mazut biodegradation by indigenous bacteria BBRC10061

Optimization based on appropriate parameters can be applied to improve a process. Mazut degradation as a critical issue in environment requires optimization to be efficiently done. To provide biodegradation conditions, experiments were designed on the least interactions among levels of parameters co...

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Bibliographic Details
Published in:Journal of environmental health science and engineering 2014-06, Vol.12 (1), p.98-98, Article 98
Main Authors: Khorasani, Alireza Chackoshian, Mashreghi, Mansour, Yaghmaei, Soheila
Format: Article
Language:English
Subjects:
Bacteria
Biodegradation
Biological activity
Biomass
Design
Earth and Environmental Science
Efficiency
Environment
Environmental Economics
Environmental Engineering/Biotechnology
Environmental Health
Environmental Law/Policy/Ecojustice
Experiments
Nitrogen
Optimization
Quality of Life Research
Research Article
Trends
Variables
Waste Management/Waste Technology
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Summary:Optimization based on appropriate parameters can be applied to improve a process. Mazut degradation as a critical issue in environment requires optimization to be efficiently done. To provide biodegradation conditions, experiments were designed on the least interactions among levels of parameters consisting of pH, Tween 80, glucose, phosphorous source, nitrogen source, and time. Kinetic constants and biomass were calculated based on 16 assays, designed using Taguchi method, which constructed various mazut biodegradation conditions. Kinetics of mazut degradation by newly isolated bacteria Enterobacter cloacae closely followed second order kinetic model. Results of the 16 experiments showed that biomass was in the range of 0.019 OD 600 to 2.75 OD 600 , and biokinetic constant was in the range of 0.2 × 10 -5  L/ (mg day) to 10 -4  L/ (mg day). Optimal level for each parameter was obtained through data analysis. For optimal biomass equal to 2.75 OD 600 , optimal pH, Tween80, glucose, phosphorous source, and time were 8.3, 4 g/L, 4 g/L, 9 g/L, and 10 days, respectively. For biokinetic constant equal to 1.2 × 10 -4  L/ (mg day), optimal pH, Tween80, glucose, phosphorous source, and nitrogen source were 8.3, 1 g/L, 4 g/L, 1 g/L, and 9 g/L, respectively. The optimum levels for biomass and biokinetic constant were the same except the levels of the Tween 80, and phosphorous source. Consequently, mazut may be more degraded with adjusting the conditions on the optimum condition.
ISSN:2052-336X
2052-336X
DOI:10.1186/2052-336X-12-98