Critical analysis of submerged membrane sequencing batch reactor operating conditions |
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Authors: | McAdam Ewan Judd Simon J Gildemeister René Drews Anja Kraume Matthias |
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Affiliation: | School of Water Sciences, Cranfield University, Bedfordshire MK43 0AL, UK. e.j.mcadam.2003@cranfield.ac.uk |
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Abstract: | To evaluate the Submerged Membrane Sequencing Batch Reactor process, several short-term studies were conducted to define critical flux, membrane aeration and intermittent filtration operation. Critical flux trials indicated that as mixed liquor suspended solids increased in concentration so would the propensity for membrane fouling. Consequently in order to characterise the impact of biomass concentration increase (that develops during permeate withdrawal) upon submerged microfiltration operation, two longer term studies were conducted, one with a falling hydraulic head and another with a continuous hydraulic head (as in membrane bio-reactors). Trans membrane pressure data was used to predict the maximum possible operating periods at 10 and 62 days for the falling hydraulic head and continuous hydraulic head respectively. Further analysis revealed that falling hydraulic head operation would require 21% more aeration to maintain a consistent crossflow velocity than continuous operation and would rely on pumping for full permeate withdrawal 80% earlier. This study concluded that further optimisation would be required to make this technology technically and economically viable. |
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Keywords: | Sequencing batch reactor Microfiltration Submerged Fouling |
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