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W2051163119 abstract "In this study, the effect of five pre-treatments (thermal, ultrasound, acid, base and bacterial product) on hydrolysis and methane production potentials of four by-products from meat-processing industry was studied. The bacterial product Liquid Certizyme 5™ increased soluble chemical oxygen demand (CODsol) of digestive tract content and drumsieve waste the most as compared to untreated material (62 and 96%, respectively), while ultrasound was the most effective to increase CODsol with dissolved air flotation (DAF) sludge (88%) and grease trap sludge (188%). In batch experiments, thermal treatment increased methane production potential of drumsieve waste, acid of grease trap sludge and all pre-treatments of DAF sludge. However, with all other pre-treatments, methane production potential was decreased compared to untreated materials, apparently due to inhibition by hydrolysis products and/or possible re-crystallization of some compounds. Methane production potentials from the untreated materials were as follows: digestive tract content 400 ± 50 m3 CH4/t volatile solids (VS)added, drumsieve waste 230 ± 20 m3 CH4/tVSadded, DAF sludge 340 ± 17 m3 CH4/tVSadded and grease trap sludge 900 ± 44 m3 CH4/tVSadded." @default.
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W2051163119 date "2009-05-01" @default.
W2051163119 modified "2023-09-23" @default.
W2051163119 title "Effect of pre-treatments on hydrolysis and methane production potentials of by-products from meat-processing industry" @default.
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W2051163119 cites W2000057240 @default.
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W2051163119 cites W2017063371 @default.
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W2051163119 doi "https://doi.org/10.1016/j.jhazmat.2008.08.002" @default.
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