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Biosolids reduction by the oxic-settling-anoxic process: impact of sludge interchange rate

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posted on 2024-11-15, 07:25 authored by Galilee U Semblante, Faisal HaiFaisal Hai, Heriberto A Bustamante, Nelly Guevara, William PriceWilliam Price, Long Nghiem
The impact of sludge interchange rate (SIR) on sludge reduction by oxic-settling-anoxic (OSA) process was investigated. The sludge yield of an OSA system (a sequencing batch reactor, SBR, integrated with external anoxic reactors) was compared to that of a control (an SBR attached to a single-pass aerobic digester). SIR (%) is the percentage by volume of sludge returned from the external reactor into the main bioreactor of the OSA, and was varied from 0-22%. OSA achieved greater sludge reduction when fed with unsettled sewage (sCOD=113 mg/L) rather than settled sewage (sCOD=60 mg/L). The SIR of 11% resulted in the highest OSA performance. At the optimum SIR, higher volatile solids destruction and nitrification/denitrification (i.e., conversion of destroyed volatile solids into inert forms) were observed in the external anoxic and intermittently aerated (i.e., aerobic/anoxic) reactors, respectively. Denitrification in the aerobic/anoxic reactor was inefficient without SIR. Effluent quality and sludge settleability were unaffected by SIR.

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Citation

Semblante, G. U., Hai, F. I., Bustamante, H. A., Guevara, N., Price, W. E. & Nghiem, L. D. (2016). Biosolids reduction by the oxic-settling-anoxic process: impact of sludge interchange rate. Bioresource Technology, 210 167-173.

Journal title

Bioresource Technology

Volume

210

Pagination

167-173

Language

English

RIS ID

104738

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