8 results on '"Yamamoto, Taichi"'
Search Results
2. Innovative treatment system for digester liquor using anammox process
- Author
-
Yamamoto Taichi, Tatsuo Sumino, Kenji Furukawa, Kazuichi Isaka, Yasuhiko Inatomi, Sen Qiao, and Lai Quan
- Subjects
Biochemical oxygen demand ,Time Factors ,Environmental Engineering ,Nitrogen ,Bioengineering ,Waste Disposal, Fluid ,Bioreactors ,Biogas ,PEG ratio ,Bioreactor ,Anaerobiosis ,Nitrogen Compounds ,Waste Management and Disposal ,Effluent ,Chromatography ,Renewable Energy, Sustainability and the Environment ,Chemistry ,technology, industry, and agriculture ,General Medicine ,Quaternary Ammonium Compounds ,Waste treatment ,Biodegradation, Environmental ,Activated sludge ,Anammox ,Gels ,Oxidation-Reduction - Abstract
This study demonstrated that partial nitritation using nitrifying activated sludge entrapped in a polyethylene glycol (PEG) gel carrier, as a pretreatment to anammox process, could be successfully applied to digester liquor of biogas plant at a nitrogen loading rate of 3.0 kg-N/m(3)/d. The nitritation process produced an effluent with a NO(2)-N/NH(4)-N ratio between 1.0 and 1.4, which was found to be suitable for the subsequent anammox process. A high SS concentration (2000-3000 mg/l) in the digester liquor did not affect partial nitritation treatment performances. Effluent from this partial nitritation reactor was successfully treated in the anammox reactor using anammox sludge entrapped in the PEG gel carrier with T-N removal rates of greater than 4.0 kg-N/m(3)/d. Influent BOD and SS contents did not inhibit anammox activity of the anammox gel carrier. The combination of partial nitritation and anammox reactors using PEG entrapped nitrifying and anammox bacteria was shown to be effective for the removal of high concentration ammonium in the digester liquor of a biogas plant.
- Published
- 2009
3. NOVEL PARTIAL NITRITATION TREATMENT FOR ANAEROBIC DIGESTION LIQUOR OF SWINE WASTEWATER AS PRETREATMENT FOR ANAMMOX
- Author
-
Yamamoto Taichi, Keita Takaki, Kenji Furukawa, and Toichiro Koyama
- Subjects
Anaerobic digestion ,Chemistry ,Swine wastewater ,Anammox ,General Engineering ,Pulp and paper industry - Published
- 2007
4. Novel partial nitritation treatment for anaerobic digestion liquor of swine wastewater using swim-bed technology
- Author
-
Toichiro Koyama, Yamamoto Taichi, Keita Takaki, and Kenji Furukawa
- Subjects
Swine ,Industrial Waste ,chemistry.chemical_element ,Bioengineering ,Applied Microbiology and Biotechnology ,Water Purification ,Bacteria, Anaerobic ,chemistry.chemical_compound ,Bioreactors ,Nitrate ,Ammonia ,Animals ,Nitrite ,Nitrites ,Sewage ,Agriculture ,Pulp and paper industry ,Nitrogen ,Mixed liquor suspended solids ,Anaerobic digestion ,Biodegradation, Environmental ,chemistry ,Wastewater ,Biochemistry ,Anammox ,Nitrification ,Water Pollutants, Chemical ,Biotechnology - Abstract
A swim-bed reactor using the biofringe acryl-fiber biomass carrier was used for partial nitritation treatment for anaerobic digestion liquor of swine wastewater. The sludge in the reactor demonstrated excellent settling properties, and the sludge volumetric index (SVI) was always about 50 ml g(-1). The mixed liquor suspended solids (MLSS) concentration was maintained above 10,000 mg l(-1) with a maximum of 16,800 mg l(-1). Satisfactory and stable partial nitritation was obtained at a nitrogen loading rate (NLR) of 1.9 kg-N m(-3) d(-1) without any operational control. Only a little nitrate was produced almost during the whole operational period and the nitrite to total oxidized nitrogen ratio (NO(2)-N/(NO(2)-N+NO(3)-N)) was always above 95%. In addition, the influence of temperature on partial nitritation efficiencies was also investigated and non-controlled efficiencies were maintained stably between 15 degrees C and 30 degrees C at an NLR of 1.9 kg-N m(-3) d(-1), but suddenly deteriorated when the temperature fell below 15 degrees C. Nitrite oxidizing bacteria were inhibited by free ammonia and free nitric acid, which prevented the conversion of nitrite to nitrate and the inhibition due to free nitric acid weaken with a decrease in temperature. It was apparent that these phenomena were crucial to the control of partial nitritation treatment.
- Published
- 2006
5. Partial nitritation treatment of underground brine waste with high ammonium and salt content
- Author
-
Sen Qiao, Zafar Bhatti, Takehiko Shinohara, Takao Fujii, Takashi Nishiyama, Yamamoto Taichi, Tatsuo Kaiho, and Kenji Furukawa
- Subjects
Inorganic chemistry ,chemistry.chemical_element ,Bioengineering ,Sodium Chloride ,complex mixtures ,Applied Microbiology and Biotechnology ,Waste Disposal, Fluid ,Water Purification ,chemistry.chemical_compound ,Ammonia ,Nitrate ,RNA, Ribosomal, 16S ,Ammonium ,Nitrite ,Effluent ,Nitrites ,Nitrates ,Bacteria ,Nitrogen ,Quaternary Ammonium Compounds ,Kinetics ,RNA, Bacterial ,Brine ,chemistry ,Anammox ,Environmental chemistry ,Salts ,Oxidation-Reduction ,Biotechnology - Abstract
Underground brine waste containing high concentrations of ammonium and with a salinity of 3% is usually generated during the production of methane gas and iodine in the gas field of Chiba Prefecture, Japan. In this study, one swim-bed reactor, packed with a novel acrylic fiber biomass carrier (Biofringe), was applied to the partial nitritation treatment of this kind of underground brine waste. A stable nitrite production rate of 1.6 kg NO(2)-N m(-3) d(-1) was obtained under a nitrogen loading rate of 3.0 kg-N m(-3) d(-1), at a pH of 7.5 and a temperature of 25 degrees C. Nitrate production was negligible and the effluent NO(2)-N/NO(x)-N ratio was above 98% due to the successful inhibition of nitrite-oxidizing bacterial activity. Free ammonia was considered to be the main factor for inhibiting the activity of nitrite-oxidizing bacteria. A microbial community shift was demonstrated by 16S rRNA analysis, and it was shown that the ammonium-oxidizing bacteria became the predominant species after successful nitrite accumulation was observed.
- Published
- 2009
6. High-rate nitrogen removal from livestock manure digester liquor by combined partial nitritation-anammox process
- Author
-
Kenji Furukawa, Kazuichi Isaka, Yamamoto Taichi, Motoki Misaka, Sen Qiao, Tatsuo Sumino, and Zafar Bhatti
- Subjects
Environmental Engineering ,Denitrification ,Nitrogen ,chemistry.chemical_element ,Bioengineering ,Microbiology ,Waste Disposal, Fluid ,chemistry.chemical_compound ,Bioreactors ,Nitrate ,Ammonia ,Environmental Chemistry ,Animals ,Anaerobiosis ,Nitrite ,Nitrogen cycle ,Nitrites ,Nitrates ,Waste management ,Bacteria ,technology, industry, and agriculture ,equipment and supplies ,Pulp and paper industry ,Pollution ,Manure ,Biodegradation, Environmental ,chemistry ,Anammox ,Animals, Domestic ,Nitrification ,Waste disposal - Abstract
In this study, combination of a partial nitritation reactor, using immobilized polyethylene glycol (PEG) gel carriers, and a continuous stirred granular anammox reactor was investigated for nitrogen removal from livestock manure digester liquor. Successful nitrite accumulation in the partial nitritation reactor was observed as the nitrite production rate reached 2.1 kg-N/m(3)/day under aerobic nitrogen loading rate of 3.8 kg-N/m(3)/day. Simultaneously, relatively high free ammonia concentrations (average 50 mg-NH(3)/l) depressed the activity of nitrite oxidizing bacteria with nitrate concentration never exceeding 3% of TN concentration in the effluent of the partial nitritation reactor (maximum 35.2 mg/l). High nitrogen removal rates were achieved in the granular anammox reactor with the highest removal rate being 3.12 kg-N/m(3)/day under anaerobic nitrogen loading rate of 4.1 kg-N/m(3)/day. Recalcitrant organic compounds in the digester liquor did not impair anammox reaction and the SS accumulation in the granular anammox reactor was minimal. The results of this study demonstrated that partial nitritation-anammox combination has the potential to successfully remove nitrogen from livestock manure digester liquor.
- Published
- 2009
7. Effect of salt concentration in anammox treatment using non woven biomass carrier
- Author
-
Takao Fujii, Kenji Furukawa, Takashi Nishiyama, Yamamoto Taichi, and Chengliang Liu
- Subjects
Nitrogen ,chemistry.chemical_element ,Salt (chemistry) ,Biomass ,Bioengineering ,Applied Microbiology and Biotechnology ,Acclimatization ,Water Purification ,Bacteria, Anaerobic ,Bioreactors ,Ammonia ,Bioreactor ,Candidate division ,chemistry.chemical_classification ,biology ,Sewage ,Ecology ,biology.organism_classification ,Biodegradation, Environmental ,chemistry ,Anammox ,Environmental chemistry ,Salts ,Bacteria ,Water Pollutants, Chemical ,Biotechnology - Abstract
Effect of high salt concentration on the anammox treatment was investigated to establish an acclimation strategy under high salt concentration conditions. An anammox fixed-bed reactor with non-woven biomass carrier was used and the salt concentration was gradually increased from 2.5 g L− 1 to 33 g L− 1. The anammox reactor demonstrated stable nitrogen removal rate (NRR) of 1.7 kg-N m− 3 d− 1 for 65 days under a salt concentration of 30 g L− 1. However, the NRR sharply declined at a salt concentration of greater than 30 g L− 1. The bacterial community was examined by 16S rRNA gene analysis and DGGE after the acclimation of the anammox sludge to high salt conditions. Although the salt concentration was almost sea level, the freshwater anammox bacteria, KU2, were detected. In addition, the unidentified bacteria which perhaps belong to candidate division OP10 and Lysobacter sp. were found to coexist with anammox bacteria at a salt concentration of 30 g L− 1.
- Published
- 2008
8. PVA-gel beads enhance granule formation in a UASB reactor
- Author
-
Yamamoto Taichi, Koga Yasunori, Zhang Wenjie, Furukawa Kenji, Zhang Li, and Wang Dunqiu
- Subjects
Environmental Engineering ,Chromatography ,integumentary system ,Bacteria ,Sewage ,Renewable Energy, Sustainability and the Environment ,Chemistry ,Segmented filamentous bacteria ,Granule (cell biology) ,Fatty Acids ,Bioengineering ,General Medicine ,Corn steep liquor ,Microspheres ,Bioreactors ,Wastewater ,Settling ,Chemical engineering ,Polyvinyl Alcohol ,Loading rate ,Gases ,Volatilization ,Waste Management and Disposal ,Gels - Abstract
PVA-gel beads were used as a biocarrier in a lab-scale UASB reactor treating synthetic wastewater composed of corn steep liquor (CSL) with the aim of evaluating its use as a growth nucleus to enhance granule formation. Over 117 days of operation, the organic loading rate was increased to 22.5 kg COD/m 3 /day with an influent COD of about 10.8 g/L at an HRT of 12 h with COD removal efficiencies greater than 87%. By the end of the study period, the PVA-gel turned black and granule formation was achieved as compared with the formation of much fewer natural granules without the PVA-gel nucleus. No filamentous bacteria were found on the surface or interior of the PVA-gel beads. The PVA-gel granules had an average settling velocity 200 m/h (5 cm/s), and a biomass attachment of 0.93 g VSS/g PVA-gel. The required time for formation of PVA-gel granules was thus demonstrated to be shorter than that of ordinary sludge granules under the experimental conditions used in this study.
- Published
- 2007
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.