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Environ Technol


Title:Aerobic granulation utilizing fermented municipal wastewater under low pH and alkalinity conditions in a sequencing batch reactor
Author(s):Leong J; Rezania B; Mavinic DS;
Address:"a Department of Civil Engineering , The University of British Columbia , 6250 Applied Science Lane, Vancouver BC , Canada V6T 1Z4. b Prongineer R&D Ltd ., #211 - 2386 East Mall, Gerald McGavin Building, Vancouver , BC , Canada V6T 1Z3"
Journal Title:Environ Technol
Year:2016
Volume:20150731
Issue:1
Page Number:55 - 63
DOI: 10.1080/09593330.2015.1063704
ISSN/ISBN:1479-487X (Electronic) 0959-3330 (Linking)
Abstract:"The aim of this study was to achieve aerobic granulation utilizing fermented municipal wastewater under low pH, and alkalinity conditions. Stable granulation was achieved after a 166-day start-up period. Due to low influent strength, supplemental carbon addition, in the form of sucrose, was added to the feed storage tank on the 82nd day of start-up to facilitate granulation. This increased the system's organic loading rate from 1.43 +/- 0.14 to 2.53 +/- 0.18 kg COD/m(3)/d, and reduced the influent pH due to fermentation of the added sucrose. Although granulation was successful, the nutrient removal was limited. Removal rates at an influent pH of 6.23 +/- 0.06 were 54.4% +/- 8.3% for phosphorus, 21.9% +/- 4.1% for ammonium, and 84.0% +/- 3.0% for total chemical oxygen demand (COD). During the second phase of experimentation, increased amounts of sucrose were added to the feed, which resulted in increased volatile fatty acid concentrations and pH reduction to 5.62 +/- 0.12 due to fermentation. Under further reduced pH conditions, phosphorus, ammonium, and total COD removal were found to be 58.9% +/- 4.7%, 37.9% +/- 4.7%, and 87.1% +/- 0.9%, respectively. Settling volume indexes, SVI10 and SVI30, were found to be 148.8 +/- 28.9 mL/g, for the influent pH of 6.23 +/- 0.06, and 157.5 +/- 40.6 mL/g, for the influent pH of 5.62 +/- 0.12. This high SVI is indicative of the formation of lower-density granules in comparison to high-ash-content granules. The absence of denitrification-induced chemical phosphorus precipitation within the granule was likely a contributing factor to the low granule density observed in the system"
Keywords:"Aerobiosis Ammonium Compounds/metabolism Biological Oxygen Demand Analysis Bioreactors Hydrogen-Ion Concentration Phosphorus/metabolism Waste Disposal, Fluid/*methods Wastewater/*analysis Water Pollutants, Chemical/*metabolism aerobic granular sludge ferm;"
Notes:"MedlineLeong, Jason Rezania, Babak Mavinic, Don S eng Research Support, Non-U.S. Gov't England 2015/06/19 Environ Technol. 2016; 37(1):55-63. doi: 10.1080/09593330.2015.1063704. Epub 2015 Jul 31"

 
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