Effect of feed strategy on methane production and performance of an AnSBBR treating effluent from biodiesel production
Abstract
The aim of this work was to investigate the effect of different feeding times (2, 4 and 6 h) and applied volumetric organic loads (4.5, 6.0 and 7.5 gCOD L -1 day -1) on the performance of an anaerobic sequencing batch biofilm reactor (AnSBBR) treating effluent from biodiesel production. Polyurethane foam cubes were used as inert support in the reactor, and mixing was accomplished by recirculating the liquid phase. The effect of feeding time on reactor performance showed to be more pronounced at higher values of applied volumetric organic loads (AVOLs). Highest organic material removal efficiencies achieved at AVOL of 4.5 gCOD L -1 day -1 were 87 % at 4-h feeding against 84 % at 2-h and 6-h feeding. At AVOL of 6.0 gCOD L -1 day -1, highest organic material removal efficiencies achieved with 4-h and 6-h feeding were 84 %, against 71 % at 2-h feeding. At AVOL of 7.5 gCOD L -1 day -1, organicmaterial removal efficiency achieved with 4-h feeding was 77%. Hence, longer feeding times favored minimization of total volatile acids concentration during the cycle as well as in the effluent, guaranteeing process stability and safety. © Springer Science+Business Media, LLC 2012.
- AnSBBR
- Applied volumetric organic load
- Biodiesel effluent
- Feeding time
- Methane production
- Anaerobiosis
- Biofilms
- Biofuels
- Bioreactors
- Glycerol
- Industrial Waste
- Methane
- Time Factors
- Volatilization
- Biodiesel
- Feeding
- Removal
- biodiesel
- methane
- organic compound
- polyurethan foam
- volatile agent
- Anaerobic sequencing batch biofilm reactor
- Biodiesel production
- Inert support
- Liquid Phase
- Organic load
- Organic materials
- Polyurethane Foam
- Process stability
- Reactor performance
- Removal efficiencies
- Volatile acids
- anaerobic sequencing batch biofilm reactor
- applied volumetric organic load
- article
- biofuel production
- biomass production
- chemical composition
- chemical oxygen demand
- chemical reaction
- concentration (parameters)
- controlled study
- effluent
- feeding behavior
- liquid
- molecular stability
- oxidation
- phase transition
- safety
- sequencing batch reactor
- volumetry
- waste component removal
- waste minimization
- waste water management
- Effluents
URI
https://www.scopus.com/inward/record.uri?eid=2-s2.0-84860834958&doi=10.1007%2fs12010-012-9627-6&partnerID=40&md5=a2e0219cf54bc82a4ee2feabdedca466https://repositorio.maua.br/handle/MAUA/1240
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