Stimulation of Methanogenesis in a Laboratory Scale UASB Reactor Treating Domestic Sewage by Fe(0) Application

Stimulation of Methanogenesis in a Laboratory Scale UASB Reactor Treating Domestic Sewage by Fe(0) Application

The effects of application of zero valence Fe (Fe(0)) on the anaerobic digestion of sewage was investigated using two laboratory scale UASB reactors. One reactor had Fe(0) addition in a container found midway along the recycling loop. The other one was a control reactor. In a test run period of 76 d...

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Bibliographic Details
Published in:Environmental technology Vol. 25; no. 5; pp. 613 - 619
Main Authors: Xu, H., Aiyuk, S., Zhang, Y., Chen, G., Pieters, J., Verstraete, W.
Format: Journal Article
Language:English
Published: London Taylor & Francis Group 01-05-2004
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Subjects:
ANAEROBIC DIGESTION
Applied sciences
Bacteria, Anaerobic
Bioreactors
DOMESTIC SEWAGE
Exact sciences and technology
General purification processes
General treatment and storage processes
IRON
Iron - chemistry
Methane - analysis
METHANOGENESIS
Oxygen - chemistry
Pollution
Sewage - chemistry
UASB
Waste Disposal, Fluid - methods
Wastes
Wastewaters
Water treatment and pollution
Waste treatment
Upflow anaerobic sludge blanket reactor
Laboratory scale
Biogas
Anaerobic digestion
Waste water
Biological purification
Domestic waste water
Bioreactor
Flocculation reagent
Chemical oxygen demand
Flocculation
Methanogenesis
Water quality
Physicochemical purification
Recycling
Biological treatment
Strength
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Summary:The effects of application of zero valence Fe (Fe(0)) on the anaerobic digestion of sewage was investigated using two laboratory scale UASB reactors. One reactor had Fe(0) addition in a container found midway along the recycling loop. The other one was a control reactor. In a test run period of 76 days, the Fe(0) application significantly increased the CH 4 yield by 8.7% and decreased the effluent COD concentration by 21.0% relative to the control reactor. A decrease of the H 2 concentration of biogas and the CODs/CODt ratio in effluent by Fe(0) application were observed. The obtained results imply that the methanogenesis and COD removal efficiency of the UASB reactor were stimulated by Fe(0) application. The higher performance of the reactor with Fe(0) application arises from the integrated functions of Fe(0) or its ionic state as donor of H 2 , macronutrient, and flocculant. This study showed that the supply of Fe(0) to a UASB can improve the methanogenesis and the overall COD removal of a UASB reactor treating low-strength domestic waste water.
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ISSN:0959-3330
1479-487X
1479-487X
DOI:10.1080/09593330.2004.9619351