Co-production of Hydrogen and Methane From the Organic Fraction of Municipal Solid Waste in a Pilot Scale Dark Fermenter and Methanogenic Biofilm Reactor
Copyright policy )Co-production of Hydrogen and Methane From the Organic Fraction of Municipal Solid Waste in a Pilot Scale Dark Fermenter and Methanogenic Biofilm Reactor
The co-production of biohydrogen and methane from the organic fraction of municipal solid waste was investigated using a two-stage AD system, composed of a pilot scale dark fermenter (DF) and a continuous methanogenic biofilm reactor. From the DF process, a biohydrogen yield of 41.7 (+/- 2.3) ml H-2/gVS(added) was achieved. The liquid DF effluent (DFE) was rich in short chain volatile fatty acids, i.e., mainly acetic and butyric acid. The DFE was valorized by producing methane in the methanogenic biofilm reactor. Two methanogenic biofilm reactors were used to assess the biotic and abiotic role of the DFE on the performance of the reactors. Regardless of the different DFE feeding (i.e., biotic and abiotic), similar and stable operational performance of the two methanogenic biofilm reactors were observed with a respective methane yield and COD removal efficiency of 280-300 ml CH4/gCOD(removed) and 80-90%. Both methanogenic biofilm reactors showed significant resistance toward organic shock loads and recovered fast after reactor disturbance. The total estimated energy recovered in the form of hydrogen and methane gas was, respectively, 28 and 72%, of the initial COD.
[SDE] Environmental Sciences, Anaerobic biofilm reactor; Biohydrogen; Dark fermentation; Energy recovery; Methane; Organic fraction of municipal solid waste; 2300, [SDV]Life Sciences [q-bio], energy recovery, Organic fraction of municipal solid waste, biohydrogen, digestion anaérobie, recovery, dark fermentation, GE1-350, méthane, Anaerobic biofilm reactor, anaerobic biofilm reactor;biohydrogen;dark fermentation;energy;recovery;methane;organic fraction of municipal solid waste, fraction organique, organic fraction of municipal solid waste, anaerobic biofilm reactor, 660, 2300, methane, fermentation sombre, déchet solide municipal, Energy recovery, Environmental sciences, [SDV] Life Sciences [q-bio], biohydrogène, [SDE]Environmental Sciences, échelle pilote, Biohydrogen, Methane, Dark fermentation, energy
[SDE] Environmental Sciences, Anaerobic biofilm reactor; Biohydrogen; Dark fermentation; Energy recovery; Methane; Organic fraction of municipal solid waste; 2300, [SDV]Life Sciences [q-bio], energy recovery, Organic fraction of municipal solid waste, biohydrogen, digestion anaérobie, recovery, dark fermentation, GE1-350, méthane, Anaerobic biofilm reactor, anaerobic biofilm reactor;biohydrogen;dark fermentation;energy;recovery;methane;organic fraction of municipal solid waste, fraction organique, organic fraction of municipal solid waste, anaerobic biofilm reactor, 660, 2300, methane, fermentation sombre, déchet solide municipal, Energy recovery, Environmental sciences, [SDV] Life Sciences [q-bio], biohydrogène, [SDE]Environmental Sciences, échelle pilote, Biohydrogen, Methane, Dark fermentation, energy
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