Chemical and biochemical engineering quarterly | |
Kinetics and Effects of Hydraulic Residence Time and Biomass Concentration on Removal of Organic Pollutants in a Continuous Unsteady State Activated Sludge Process | |
M. C. Márquez1  C. Costa1  M. Jul1  | |
关键词: wastewater treatment; activated sludge; unsteady state; γSo / γX ratio; | |
DOI : | |
来源: Croatian Society of Chemical Engineers | |
【 摘 要 】
Abstract Activated sludge processes are generally affected by the variation of influent flow leading to a modification in biomass concentration and COD removal efficiency. This unsteady state situation can be mathematically explained by a Monod–type kinetics transformed using γSo / γX (influent substrate to reactor biomass ratio) as a control parameter. The kinetic equation has been applied to experimental data obtained in an activated sludge lab plant (5.5 L) using synthetic wastewater (γCOD = 2200 ± 300 mg L–1). Organic load has been modified by increasing gradually influent flow in order to attain different hydraulic residence times (t = 10 to 45 h), leading to optimum values of biomass concentration (γX = 450 to 3200 mg L–1) for maximum COD removal. The application of this type of kinetics that explains experimental results on substrate utilization rate under unsteady state conditions is discussed.
【 授权许可】
Unknown
【 预 览 】
Files | Size | Format | View |
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RO201912090768687ZK.pdf | 160KB | download |