Biochemical methane potential of food and garden waste co-digestion with variation in solid content and inoculum:substrate ratio

The objective of this study is to evaluate the influence of the addition of garden waste (GW) on the performance of food waste (FW) anaerobic digestion. In this regard, a bench scale experiment was performed via biochemical methane potential test. The reactors were composed of flasks with a total vo...

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Veröffentlicht in:	Journal of material cycles and waste management 2021-09, Vol.23 (5), p.1974-1983
Hauptverfasser:	Borth, Priscila Liane Biesdorf, Perin, Jessica Klarosk Helenas, Torrecilhas, Arthur Ribeiro, Pan, Nicole Caldas, Kuroda, Emília Kiyomi, Fernandes, Fernando
Format:	Artikel
Sprache:	eng
Schlagworte:	Anaerobic digestion Biodegradation Biogas Civil Engineering Engineering Environmental Management Experiments Factorial design Fatty acids Flasks Food Food waste Gardens & gardening Inoculum Lignocellulose Methane Optimization Organic waste treatment Original Article Reactors Substrates Systems stability Waste Management/Waste Technology
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container_end_page	1983
container_issue	5
container_start_page	1974
container_title	Journal of material cycles and waste management
container_volume	23
creator	Borth, Priscila Liane Biesdorf Perin, Jessica Klarosk Helenas Torrecilhas, Arthur Ribeiro Pan, Nicole Caldas Kuroda, Emília Kiyomi Fernandes, Fernando
description	The objective of this study is to evaluate the influence of the addition of garden waste (GW) on the performance of food waste (FW) anaerobic digestion. In this regard, a bench scale experiment was performed via biochemical methane potential test. The reactors were composed of flasks with a total volume of 310 mL and a useable volume of 120 mL, containing the waste mixtures in the different studied conditions. All reactors were incubated under 36 °C. A factorial design was used to evaluate the influence of three factors on methane production: inoculum and substrate ratio (I:S), volatile solid (VS) content of the mixture and type of substrate. The results indicated that the condition referred to an I:S ratio of 1:1, higher VS content (VS mix ) and only FW as a substrate achieved the higher methane production and differed significantly from the others. This combination resulted in 67.5% of VS removal, 509 NmL of cumulative CH 4 and a specific methane yield of 159 NmLCH 4 gVS −1 . The results obtained in this research indicated that the addition of GW on the anaerobic digestion of FW did not positively influence the methane production. Graphic abstract
doi_str_mv	10.1007/s10163-021-01270-z
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In this regard, a bench scale experiment was performed via biochemical methane potential test. The reactors were composed of flasks with a total volume of 310 mL and a useable volume of 120 mL, containing the waste mixtures in the different studied conditions. All reactors were incubated under 36 °C. A factorial design was used to evaluate the influence of three factors on methane production: inoculum and substrate ratio (I:S), volatile solid (VS) content of the mixture and type of substrate. The results indicated that the condition referred to an I:S ratio of 1:1, higher VS content (VS mix ) and only FW as a substrate achieved the higher methane production and differed significantly from the others. This combination resulted in 67.5% of VS removal, 509 NmL of cumulative CH 4 and a specific methane yield of 159 NmLCH 4 gVS −1 . The results obtained in this research indicated that the addition of GW on the anaerobic digestion of FW did not positively influence the methane production. 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subjects	Anaerobic digestion Biodegradation Biogas Civil Engineering Engineering Environmental Management Experiments Factorial design Fatty acids Flasks Food Food waste Gardens & gardening Inoculum Lignocellulose Methane Optimization Organic waste treatment Original Article Reactors Substrates Systems stability Waste Management/Waste Technology
title	Biochemical methane potential of food and garden waste co-digestion with variation in solid content and inoculum:substrate ratio
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