1. Reject water treatment by improvement of whole cell anammox entrapment using polyvinyl alcohol/alginate gel.
- Author
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Quan LM, Khanh do P, Hira D, Fujii T, and Furukawa K
- Subjects
- Anaerobiosis, Bacteria classification, Bacteria genetics, Bacteria isolation & purification, Bioreactors, Cells, Immobilized enzymology, Gels, Hydrogen-Ion Concentration, Nitrogen analysis, Quaternary Ammonium Compounds chemistry, Quaternary Ammonium Compounds metabolism, RNA, Ribosomal, 16S analysis, Temperature, Water Pollutants, Chemical metabolism, Alginates metabolism, Bacteria enzymology, Biodegradation, Environmental, Environmental Pollution prevention & control, Microbial Consortia physiology, Polyvinyl Alcohol metabolism, Sewage microbiology
- Abstract
Reject water treatment performance was investigated by whole cell anammox sludge entrapped polyvinyl alcohol/sodium alginate gel in the stirred tank reactor (STR). The whole experiment was conducted through Phase 1 and Phase 2 in which synthetic wastewater and modified reject water were used as feeding medium, respectively. The anammox reactor demonstrated quick start-up after 22 days as well as stable and relatively high nitrogen removal rate of more than 8.0 kg-N m(-3) day(-1) during the two both phases even under moderately low temperature of 25 ± 0.5°C during the last 2 months of Phase 2. The matured brownish red PVA beads had good characteristics with buoyant density of 1.10 g cm(-3), settling velocity of 141 m h(-1) and diameter of 4 mm. The bacterial community was identified by 16S rDNA analysis revealing the concurrent existence of KSU-1 and new kind anammox bacterium Kumadai-I after changing influent from synthetic wastewater to reject water. It was speculated that Kumadai-I might play a role as "promotion" factor together with KSU-1 on high nitrogen removal rate. These results demonstrate the potential application of whole cell anammox entrapment by PVA/alginate gel for achieving stable and high-rate nitrogen removal from high ammonium with low C/N ratio contained wastewaters, such as reject water, digester liquor or landfill leachate.
- Published
- 2011
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