Enhanced system performance by dosing ferroferric oxide during the anaerobic treatment of tryptone-based high-strength wastewater
Conductive materials can facilitate syntrophic methane (CH 4) production by improving
direct interspecies electron transfer. The effect of a conductive material, ferroferric oxide (Fe
3 O 4), on the anaerobic treatment of tryptone-based high-strength wastewater was
investigated in two anaerobic sequencing batch reactors (ASBRs). One was the control
reactor without amendment of Fe 3 O 4, and the other was the Fe 3 O 4-amended reactor. In
an ASBR reaction cycle, the dosage of Fe 3 O 4 increased the CH 4 production rate by …
direct interspecies electron transfer. The effect of a conductive material, ferroferric oxide (Fe
3 O 4), on the anaerobic treatment of tryptone-based high-strength wastewater was
investigated in two anaerobic sequencing batch reactors (ASBRs). One was the control
reactor without amendment of Fe 3 O 4, and the other was the Fe 3 O 4-amended reactor. In
an ASBR reaction cycle, the dosage of Fe 3 O 4 increased the CH 4 production rate by …
Enhanced system performance by dosing ferroferric oxide during the anaerobic treatment of tryptone-based high-strength wastewater.
YQD Yin QiDong, HK He Kai, LAK Liu AiKe… - 2017 - cabidigitallibrary.org
Conductive materials can facilitate syntrophic methane (CH4) production by improving direct
interspecies electron transfer. The effect of a conductive material, ferroferric oxide (Fe3O4),
on the anaerobic treatment of tryptone-based high-strength wastewater was investigated in
two anaerobic sequencing batch reactors (ASBRs). One was the control reactor without
amendment of Fe3O4, and the other was the Fe3O4-amended reactor. In an ASBR reaction
cycle, the dosage of Fe3O4 increased the CH4 production rate by 12.2%, shortened the …
interspecies electron transfer. The effect of a conductive material, ferroferric oxide (Fe3O4),
on the anaerobic treatment of tryptone-based high-strength wastewater was investigated in
two anaerobic sequencing batch reactors (ASBRs). One was the control reactor without
amendment of Fe3O4, and the other was the Fe3O4-amended reactor. In an ASBR reaction
cycle, the dosage of Fe3O4 increased the CH4 production rate by 12.2%, shortened the …
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