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The circulating-fluidized-bed bioreactor (CFBBR) is a promising technique for biological-nutrient removal (BNR) from wastewater. A simulation-based method for determining the hydraulic-retention time (HRT) and operating conditions of a CFBBR is… Click to show full abstract
The circulating-fluidized-bed bioreactor (CFBBR) is a promising technique for biological-nutrient removal (BNR) from wastewater. A simulation-based method for determining the hydraulic-retention time (HRT) and operating conditions of a CFBBR is proposed. When a CFBBR operates under the constant HRT and the constant operating conditions obtained by the proposed method, the effluent can meet the water-quality criteria in cases with composition disturbances and implementation errors. To reduce the HRT, two ways of adding a carbon source are investigated: (i) increasing the minimum carbon–nitrogen ratio of the fluctuating influent and (ii) adding a constant amount of a carbon source. The relationships between the minimum carbon–nitrogen ratio (TCOD increment) and the minimum HRT are obtained. These relationships are helpful for guiding the addition of a carbon source. A case study of a pilot-scale CFBBR for BNR is used to illustrate this method.
Journal Title: Industrial & Engineering Chemistry Research
Year Published: 2019
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