Feasibility of an aerobic sequencing batch flexible fibre biofilm reactor for treatment of milk processing wastewater
Author(s)
Abdulgader, Mohamed
Zinatizadeh, A.
Williams, Philip
Yu, Jimmy
Year published
2009
Metadata
Show full item recordAbstract
fibre biofilm reactor (SBFFBR) was studied for the treatment of raw milk processing wastewater. The SBFFNR system was modified from a typical sequencing batch reactor (SBR) system by using eight simple flexible fibre bundles, which serve as support media for microorganisms. The reactor was operated under different influent substrate concentrations and at 1.6 day hydraulic retention time (HRT). The results show successful applicability of the SBFFBR system, indicating high chemical oxygen demand (COD) removal efficiencies between 87.2% and 97% at average organic loading rates of 4.77 kg COD/m3.d and 0.4 kg COD/m3.d, ...
View more >fibre biofilm reactor (SBFFBR) was studied for the treatment of raw milk processing wastewater. The SBFFNR system was modified from a typical sequencing batch reactor (SBR) system by using eight simple flexible fibre bundles, which serve as support media for microorganisms. The reactor was operated under different influent substrate concentrations and at 1.6 day hydraulic retention time (HRT). The results show successful applicability of the SBFFBR system, indicating high chemical oxygen demand (COD) removal efficiencies between 87.2% and 97% at average organic loading rates of 4.77 kg COD/m3.d and 0.4 kg COD/m3.d, respectively. The TSS removal efficiency decreased to 75 % as the organic loading rate increased to 4.77 kgTSS/m3.d. The reactor achieved overall removal efficiency of 92.5 % for COD and 89.1% for TSS. The reactor performance was also examined by measuring the turbidity, volatile solids and pH as functions of time. In addition to COD removal, simple operation, low cost and minimal sludge production were some of the other advantages.
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View more >fibre biofilm reactor (SBFFBR) was studied for the treatment of raw milk processing wastewater. The SBFFNR system was modified from a typical sequencing batch reactor (SBR) system by using eight simple flexible fibre bundles, which serve as support media for microorganisms. The reactor was operated under different influent substrate concentrations and at 1.6 day hydraulic retention time (HRT). The results show successful applicability of the SBFFBR system, indicating high chemical oxygen demand (COD) removal efficiencies between 87.2% and 97% at average organic loading rates of 4.77 kg COD/m3.d and 0.4 kg COD/m3.d, respectively. The TSS removal efficiency decreased to 75 % as the organic loading rate increased to 4.77 kgTSS/m3.d. The reactor achieved overall removal efficiency of 92.5 % for COD and 89.1% for TSS. The reactor performance was also examined by measuring the turbidity, volatile solids and pH as functions of time. In addition to COD removal, simple operation, low cost and minimal sludge production were some of the other advantages.
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Conference Title
Proceedings of AWA Ozwater 2009 Conference
Publisher URI
Copyright Statement
© 2009 Australian Water Association. Self-archiving of the author-manuscript version is not yet supported by the AWA
Subject
Environmental Technologies