K. Nishiyama scite author profile

K. Nishiyama

4Publications

6Citation Statements Received

5Citation Statements Given

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Nagaoka University of Technology

Publications

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Changes of microbial characteristics of retained sludge during low-temperature operation of an EGSB reactor for low-strength wastewater treatment

Syutsubo

Yoochatchaval

Yoshida

et al. 2008

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In this study, a lab scale EGSB reactor was operated for 400 days to investigate the influence of temperature-decrease on the microbial characteristic of retained sludge. The EGSB reactor was started-up at 15 degrees C seeding with 20 degrees C-grown granular sludge. The influent COD of synthetic wastewater was set at 0.6-0.8 gCOD/L. The process-temperature was stepwise reduced from 15 degrees C to 5 degrees C during 400 days operation. Decrease of temperature of the reactor from 15 degrees C to 10 degrees C caused the decline of COD removal efficiency. However, continuous operation of the EGSB reactor led the efficient treatment of wastewater (70% of COD removal, 50% of methane recovery) at 10 degrees C. We confirmed that the both acetate-fed and hydrogen-fed methanogenic activities of retained sludge clearly increased under 15 to 20 degrees C. Changes of microbial profiles of methanogenic bacteria were analyzed by 16S rDNA-targeted DGGE analysis and cloning. It shows that genus Methanospirillum as hydrogen-utilizing methanogen proliferated due to low temperature operation of the reactor. On the other hand, genus Methanosaeta presented in abundance as acetoclastic-methanogen throughout the experiment.

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Influence of effluent-recirculation condition on the process performance of expanded granular sludge bed reactor for treating low strength wastewater

Yoochatchaval

Nishiyama

Okawara

et al. 2008

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A 2.0 L volume of EGSB reactor was operated at 20 degrees C for more than 500 days with 0.3-0.4 g COD/L of sucrose base wastewater to investigate the influence of effluent-recirculation on the process performance. At the start up period, the reactor was operated in EGSB mode with 5 m/h upflow velocity by continuous effluent recirculation. The COD loading was set to 7.2-9.6 kg COD/m(3) day with HRT of 1 hour. However, in this mode, EGSB reactor exhibited insufficient COD removal efficiency, i.e., 50-60%. Therefore, UASB mode (without recirculation, 0.7 m/h upflow velocity) was used for 30 minutes in every 40 minutes cycle to increase the COD concentration in the sludge bed. As a result, an excellent process performance was shown. The COD removal efficiency increased from 65% to 91% and the reactor could maintain a good physical property of retained sludge (sludge concentration: 33.4 g VSS/L and SVI: 25 mL/g VSS). Furthermore, retained sludge possessed sufficient level of methanogenic activity at 20 degrees C.

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Recovery of Dissolved Methane in Effluent of Anaerobic Wastewater Treatment by Closed DHS Unit

Okawara¹,

Hatamoto²,

Nishiyama³

et al. 2010

Journal of Japan Society on Water Environment

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Analysis of Exhaust Gas of Paper Mill

Suzuki¹,

Nishiyama²

1964

Sangyo Igaku

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K. Nishiyama

Changes of microbial characteristics of retained sludge during low-temperature operation of an EGSB reactor for low-strength wastewater treatment

Influence of effluent-recirculation condition on the process performance of expanded granular sludge bed reactor for treating low strength wastewater

Recovery of Dissolved Methane in Effluent of Anaerobic Wastewater Treatment by Closed DHS Unit

Analysis of Exhaust Gas of Paper Mill

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