Anaerobic digestion is a well-established technology for treating organic waste, but it is still under challenge for food waste due to process stability problems. In this work, continuous H2and CH4production from canteen food waste (FW) in a two-stage system were successfully established by optimizing process parameters. The optimal hydraulic retention time was 5 d for H2and 15 d for CH4. Overall, around 59% of the total COD in FW was converted into H2(4%) and into CH4(55%). The fluctuations of FW characteristics did not significantly affect process performance. From the energy point view, the H2reactor contributed much less than the methane reactor to total energy balance, but it played a key role in maintaining the stability of anaerobic treatment of food waste. Microbial characterization indicated that methane formation was through syntrophic acetate oxidation combined with hydrogenotrophic methanogenesis pathway.
Long-term bio-H2and bio-CH4production from food waste in a continuous two-stage system : Energy efficiency and conversion pathways / D.E. Algapani, W. Qiao, F. di Pumpo, D. Bianchi, S.M. Wandera, F. Adani, R. Dong. - In: BIORESOURCE TECHNOLOGY. - ISSN 0960-8524. - 248:Pt. A(2018 Jan), pp. 204-213.
Long-term bio-H2and bio-CH4production from food waste in a continuous two-stage system : Energy efficiency and conversion pathways
F. AdaniPenultimo
;
2018
Abstract
Anaerobic digestion is a well-established technology for treating organic waste, but it is still under challenge for food waste due to process stability problems. In this work, continuous H2and CH4production from canteen food waste (FW) in a two-stage system were successfully established by optimizing process parameters. The optimal hydraulic retention time was 5 d for H2and 15 d for CH4. Overall, around 59% of the total COD in FW was converted into H2(4%) and into CH4(55%). The fluctuations of FW characteristics did not significantly affect process performance. From the energy point view, the H2reactor contributed much less than the methane reactor to total energy balance, but it played a key role in maintaining the stability of anaerobic treatment of food waste. Microbial characterization indicated that methane formation was through syntrophic acetate oxidation combined with hydrogenotrophic methanogenesis pathway.
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