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THERMOPHIRIC HIGH SOLID CO-DIGESTION OF EXCESS SLUGE AND RICE STRAW IN A OXYDATION DITCH PLANT -A PILOT SCALE PLANT EXPERIMENT-
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- YAMAMOTO-IKEMOTO Ryoko
- 金沢大学 地球社会基盤学系
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- SHIMIDZU Hiroyuki
- 金沢大学大学院 自然科学研究科環境デザイン専攻
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- TOGARI Taketo
- 公立鳥取環境大学 環境学部
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- MISAKI Takero
- 株式会社バイオガスラボ
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- MATSUURA Norihisa
- 金沢大学 地球社会基盤学系
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- HONDA Ryo
- 金沢大学 地球社会基盤学系
Bibliographic Information
- Other Title
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- オキシデーションディッチ汚泥と稲わらの高濃度高温混合消化 -パイロットプラントによる実証-
- オキシデーションディッチ オデイ ト イネワラ ノ コウノウド コウオン コンゴウ ショウカ : パイロットプラント ニ ヨル ジッショウ
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Description
<p> To introduce a methane production process in a small-scale sewer plant, thermophilic high solid codigestion of excess sludge and rice straw was proposed, and the effect of rice straw addition was examined by a pilot scale plant. Under the condition of input sludge concentration 9 % (mixture of excess sludge from an oxidation-ditch 6% and rice straw 3%) at SRT 15 days, stable methane production was observed, though the ammonium nitrogen (TAN) concentration increased over 2,500 mg/L. The methane conversion rate and methane yield were 0.35 and 0.186 Nm3/kgVS, respectively, which were agreed with the calculated vales from the biomethane potential of each biomass obtained by a batch experiment. Uncultured bacteria MBA08 belonging to Class Clostridia occupied 36.7-54.6 % in the digested sludge. High ammonium tolerance archaea, Methanosarcina thermophila was detected at high frequency (84-89%). Even though the viscosity increased by 10 times according to increase in TS concentration, the contents of the digester was well mixed. Although improvement effect of dewaterability of the residue was smaller than that observed in the methophiric digestion, water content of dewatered sludge was lower than those of input sludge and inoculum.</p>
Journal
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- Journal of Japan Society of Civil Engineers, Ser. G (Environmental Research)
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Journal of Japan Society of Civil Engineers, Ser. G (Environmental Research) 76 (7), III_471-III_479, 2020
Japan Society of Civil Engineers