2007 Fiscal Year Final Research Report Summary
Development of Biorector for Treatment of High Concentration Ammonium Wastewater with Immobilized Bacteria
| Project/Area Number |
17510080
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| Research Category |
Grant-in-Aid for Scientific Research (C)
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| Allocation Type | Single-year Grants |
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| Section | 一般 |
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| Research Field |
Environmental technology/Environmental materials
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| Research Institution | Ube National College of Technology |
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Principal Investigator |
YAMASAKI Hirohito Ube National College of Technology, Department of Chemical and Biological Engineering, Associate Professor (20300618)
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| Co-Investigator(Kenkyū-buntansha) |
MURAKAMI Sadaaki Ube National College of Technology, Department of Chemical and Biological Engineering, Professor (00035065)
SHINAGAWA Emiko Ube National College of Technology, Department of Chemical and Biological Engineering, Professor (20116726)
FUKUNAGA Kimitoshi Yamaguchi University, Graduate School of Science and Engineering, Professor (40035069)
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| Project Period (FY) |
2005 – 2007
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| Keywords | Environmental Technology / Environmental Material / Nitrogen Removal / Immobilized Nitrifying Bacteria / Support Material / Wastewater Treatment / Ammonium Nitrogen |
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| Research Abstract |
Experiments of nitrification for model wastewater containing high concentration ammonium were carried out in a 1L bubbling vessel with 5 wt% of immobilized bacteria during a period of 124-212 days. Acclimated nitrifying bacteria to tolerate a high concentration of ammonium sulfate as high as 5, 300 NH_4-Nmg/L or above were cultivated from activated sludge (AS) or Effective Micro organism groups (EM), and were physically immobilized on polymeric spherical hydrogel (KU), or pelletized polypropylene (BCP[C]) contains activated carbons (C). The AS or EM were also entrapped without or with C, fly ash (F), or activated alumina (Al) in the crosslinking gelation of poly (vinyl alcohol) (PVA) with boric ion: (AS or EM) / (PVA, PVA[C], PVA[F], or PVA[Al]); respectively. The entrapped bacteria finished the acclimated cultivation during shorter terms than physically adsorbed bacteria. The entrapped bacteria in the support containing inorganic fillers were finished acclimation more rapidly than tho
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se without fillers: the acclimation of EM/PVA[F] (bacteria/support) cultured in the high NH_4^+ medium was completed for 124 days.
In order to make a lot of combination between bacteria and supports, acclimated nitrifying bacteria was physically immobilized on polymeric spherical hydrogel (AL, AL[C], AL[F]), polymeric cubic hydrogel (ALCu, ALCu[C]), or cylindrical polypropylene (ALT, ALT[C]), too.
Removal of high concentration of ammonium with acclimated nitrifying bacteria and stripping from model wastewater were carried out. Interestingly, entrapped bacteria produced NO_3^-from NH_4^+ in series, while AS/PVA and physically immobilized bacteria produced : only NO_2^- from NH_4^+. In the case of high concentration of ammonium load, the acclimated bacteria cultured from EM/PVA[C], or AS/ALT[C] were able to remove about 57% of the ammonium ions with stripping from the 5, 300 NH_4-Nmg/L model wastewater by 30 days. Complete nitrification reactions were examined by using of immobilized bacteria with AS/ALT[C] that was NO_2^- productive and EM/PVA[Al] that was NO_3^- productive. High concentration of NH_4^+ was almost nitrified to NO_2^-. or NO_3^- after 35 or 50 days, respectively. Less
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Research Products
(12 results)
