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Enhancement of Anaerobic Digestion of Nile Perch Fish Processing Wastewater

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dc.creator Gumisiriza, Robert
dc.creator Mshandete, Anthony M.
dc.creator Rubindamayugi, Mugassa
dc.creator Kansiime, Frank
dc.creator Kivaisi, Amelia K.
dc.date 2016-05-17T13:31:21Z
dc.date 2016-05-17T13:31:21Z
dc.date 2009
dc.date.accessioned 2018-03-27T09:00:29Z
dc.date.available 2018-03-27T09:00:29Z
dc.identifier Gumisiriza, R., Mshandete, A.M., Rubindamayugi, M.S.T., Kansiime, F. and Kivaisi, A.K., 2009. Enhancement of anaerobic digestion of Nile perch fish processing wastewater. African Journal of Biotechnology, 8(2).
dc.identifier 1684–5315
dc.identifier http://hdl.handle.net/20.500.11810/2111
dc.identifier.uri http://hdl.handle.net/20.500.11810/2111
dc.description In East Africa, Nile perch processing into fish fillets for export generates large proportions of both solid and liquid fish wastes. These wastes are improperly utilized and/or disposed off untreated leading to environmental pollution problems. On the other hand, Nile perch fish processing wastewater (FPW) contains high concentrations of lipids and proteins, which have high methane yield potential. However, anaerobic digestion (AD) of FPW for methane production is limited due to process inhibition by lipids and ammonia intoxication. To overcome these limitations, the effects of co-digestion, physical and biological pretreatments on extent of methane yield were investigated. At a loading ratio of 1:1 (inoculum to substrate) with raw FPW, a methane yield of 0.56 m 3 /kgVS was obtained. Co-digestion of the residue with 10% gVS of brewery wastewater enhanced methane yield to a highest increment of 66%. Long chain fatty acids (LCFA) removal prior AD enhanced methane yield to an increment of 52% at LCFA removal of 8%. Pretreatment of FPW with aerobic microbial cultures isolated from a fish waste stabilization pond enhanced methane yield to an increment of 60% after 18 h, 68% after 15 h and 76.0% after 12 h of incubation, respectively, for strains CBR 11, BR 10 and a mixture of the two (CBR 11 + BR 10). The present study reports for the first time improvement of AD of Nile perch FPW by co-digestion, physical and biological pre-treatment methods and could be used as a basis for designing a pilot scale process.
dc.language en
dc.subject Anaerobic digestion
dc.subject Co-digestion
dc.subject LCFA removal
dc.subject Biological pre-treatment
dc.subject Nile perch processing wastewater
dc.title Enhancement of Anaerobic Digestion of Nile Perch Fish Processing Wastewater
dc.type Journal Article, Peer Reviewed


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