Mathematical Model of the Cell Growth for Methane-Oxidizing Bacteria

Jing Dong; He Teng Wang; Ying Xin Zhang

doi:10.4028/www.scientific.net/AMM.731.345

Paper Titles

Research of Optimization Design for Transport Packaging Based on Cape Pack
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Current Situation and Reflection on Metal Packaging Waste Recycling
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Effect of the Vibration on the Jamming of the Particles in the Hopper
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Online Real-Time Detection Scheme Research on Precision of Filter Rod Circumference
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Mathematical Model of the Cell Growth for Methane-Oxidizing Bacteria
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Research on the Development of Ultra High Pressure Fresh-Keeping Packaging Technology
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A Comparative Study of MAP Materials on the Shelf-Life of Strawberry (cv. Sachinoka)
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Effect of ClO₂ Controlled Release Packaging on the Preservation Performance of Oilseed Rape
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Study on PE/Inorganic Nano-Antibacterial Packaging Material
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 731Mathematical Model of the Cell Growth for...

Mathematical Model of the Cell Growth for Methane-Oxidizing Bacteria

Abstract:

The dynamic trends of living cell content of methane-oxidizing bacteria during its fermentation process were analyzed. According to the experimental data, mathematical modeling of methane-oxidizing bacteria cell growth was simulated. The results showed that the logistic curve could be used to describe the mathematical modeling of methane-oxidizing bacteria cell growth well. The establishment of the model is the theoretic basis in optimizing the fermentable parameters and analyzing the fermented metabolites.