AI Article Synopsis
- A study compared high (380 mg/L) and low (150 mg/L) ozone concentrations for reducing excess sludge in an anaerobic/anoxic/oxic (A/A/O) + ozonated sludge recycle (OSR) system over 97 days.
- The higher ozone concentration resulted in significantly better reductions in organic matter and total excess sludge, achieving 41.6% and 25.9% reductions, respectively, compared to the lower concentration's 31.0% and 18.2%.
- Additionally, the high ozone level produced better nutrient removal without adversely affecting effluent quality, while both concentrations had similar results in sludge settling, dewatering, and anaerobic digestion performance.
Article Abstract
Partial ozonation of returned sludge via high and low concentration of ozone were compared to evaluate their efficiency in excess sludge production reduction. A pilot-scale system of anaerobic/anoxic/oxic (A/A/O) + ozonated sludge recycle (OSR) process was operated for 97 days, to investigate the effects of different ozone concentration (380 mg/L and 150 mg/L) on the nutrient removal capacity, sludge reduction rate, the excess sludge properties including settling, dewatering and anaerobic digestion (AD) performance. It was found that at the same total ozone dosage (13 mg/g MLSS, 25 mg/g MLVSS), the ozone of 380 mg/L achieved much higher organic matters and total excess sludge reduction (41.6% and 25.9%) than 150 mg/L applied (31.0% and 18.2%). It also laid less deterioration effect on the effluent quality and had better nutrient (COD, NH-N, TN) removal capacity than 150 mg/L applied. Meanwhile, little difference was found in the settling, dewatering and AD properties of excess sludge from the two A/A/O + OSR processes. Meanwhile, sludge solubilization rate, BIOLOG ECO microplate, 16S rRNA sequencing were applied comprehensively to illustrate the reasons for above advantages of the elevated ozone dosage applied. It was clarified that compared to 150 mg/L, A/A/O + OSR with ozone of 380 mg/L had higher sludge solubilization rate, less impact on bacterial community distribution and utilization capacity of carbon sources in bioreactors.
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| http://dx.doi.org/10.1016/j.scitotenv.2021.150773 | DOI Listing |
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