Kinetic Studies on Fermentative Production of Biofuel from Synthesis Gas UsingClostridium ljungdahlii
Copyright policy )Kinetic Studies on Fermentative Production of Biofuel from Synthesis Gas UsingClostridium ljungdahlii
The intrinsic growth, substrate uptake, and product formation biokinetic parameters were obtained for the anaerobic bacterium,Clostridium ljungdahlii, grown on synthesis gas in various pressurized batch bioreactors. A dual-substrate growth kinetic model using Luong for CO and Monod for H2was used to describe the growth kinetics of the bacterium on these substrates. The maximum specific growth rate (μmax= 0.195 h−1) and Monod constants for CO (Ks,CO= 0.855 atm) and H2(Ks,H2= 0.412 atm) were obtained. This model also accommodated the CO inhibitory effects on cell growth at high CO partial pressures, where no growth was apparent at high dissolved CO tensions (PCO∗>0.743 atm). The Volterra model, Andrews, and modified Gompertz were, respectively, adopted to describe the cell growth, substrate uptake rate, and product formation. The maximum specific CO uptake rate (qmax= 34.364 mmol/gcell/h), CO inhibition constant (KI= 0.601 atm), and maximum rate of ethanol (Rmax= 0.172 mmol/L/h atPCO= 0.598 atm) and acetate (Rmax= 0.096 mmol/L/h atPCO= 0.539 atm) production were determined from the applied models.
- Universiti Sains Malaysia Malaysia
- Tarbiat Modares University Iran (Islamic Republic of)
- Babol Noshirvani University of Technology Iran (Islamic Republic of)
Technology, Science, Biomedical Engineering, FOS: Medical engineering, Bioreactor Scale-up and Oxygen Transfer in Microbial Processes, Engineering, Biochemistry, Genetics and Molecular Biology, Molecular Biology, Clostridium, T, Q, Metabolic Engineering and Synthetic Biology, R, Life Sciences, Building and Construction, Computer science, Biofuel Production, Algorithm, Kinetics, Biofuels, Fermentation, Physical Sciences, Medicine, Gases, Anaerobic Digestion and Biogas Production, Research Article
Technology, Science, Biomedical Engineering, FOS: Medical engineering, Bioreactor Scale-up and Oxygen Transfer in Microbial Processes, Engineering, Biochemistry, Genetics and Molecular Biology, Molecular Biology, Clostridium, T, Q, Metabolic Engineering and Synthetic Biology, R, Life Sciences, Building and Construction, Computer science, Biofuel Production, Algorithm, Kinetics, Biofuels, Fermentation, Physical Sciences, Medicine, Gases, Anaerobic Digestion and Biogas Production, Research Article
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