The co-digestion of a variable amount of fruit and vegetable waste in a waste mixed sludge digester was investigated using a pilot scale apparatus. The organic loading rate (OLR) was increased from 1.46kgVS/mday to 2.8kgVS/mday. The hydraulic retention time was reduced from 14days to about 10days. Specific bio-methane production increased from about 90NL/kgVS to the maximum value of about 430NL/kgVS when OLR was increased from 1.46kgVS/mday to 2.1kgVS/mday. A higher OLR caused an excessive reduction in the hydraulic retention time, enhancing microorganism wash out. Process stability evaluated by the total volatile fatty acids concentration (mg/l) to the alkalinity buffer capacity (eq. mg/l CaCO) ratio (i.e. FOS/TAC) criterion was <0.1 indicating high stability for OLR <2.46 kgVS/mday. For higher OLR, FOS/TAC increased rapidly. Residual phytotoxicty of the digestate evaluated by the germination index (GI) (%) was quite constant for OLR<2.46kgVS/mday, which is lower than the 60% limit, indicating an acceptable toxicity level for crops. For OLR>2.46kgVS/mday, GI decreased rapidly. This corresponding trend between FOS/TAC and GI was further investigated by the definition of the GI ratio (GIR) parameter. Comparison between GIR and FOS/TAC suggests that GI could be a suitable criterion for evaluating process stability. © 2014 Elsevier Ltd.

Co-treatment of fruit and vegetable waste in sludge digesters. An analysis of the relationship among bio-methane generation, process stability and digestate phytotoxicity

Massaccesi Luisa;Cucina Mirko
2014

Abstract

The co-digestion of a variable amount of fruit and vegetable waste in a waste mixed sludge digester was investigated using a pilot scale apparatus. The organic loading rate (OLR) was increased from 1.46kgVS/mday to 2.8kgVS/mday. The hydraulic retention time was reduced from 14days to about 10days. Specific bio-methane production increased from about 90NL/kgVS to the maximum value of about 430NL/kgVS when OLR was increased from 1.46kgVS/mday to 2.1kgVS/mday. A higher OLR caused an excessive reduction in the hydraulic retention time, enhancing microorganism wash out. Process stability evaluated by the total volatile fatty acids concentration (mg/l) to the alkalinity buffer capacity (eq. mg/l CaCO) ratio (i.e. FOS/TAC) criterion was <0.1 indicating high stability for OLR <2.46 kgVS/mday. For higher OLR, FOS/TAC increased rapidly. Residual phytotoxicty of the digestate evaluated by the germination index (GI) (%) was quite constant for OLR<2.46kgVS/mday, which is lower than the 60% limit, indicating an acceptable toxicity level for crops. For OLR>2.46kgVS/mday, GI decreased rapidly. This corresponding trend between FOS/TAC and GI was further investigated by the definition of the GI ratio (GIR) parameter. Comparison between GIR and FOS/TAC suggests that GI could be a suitable criterion for evaluating process stability. © 2014 Elsevier Ltd.
2014
Istituto per i Sistemi Agricoli e Forestali del Mediterraneo - ISAFOM
Anaerobic co-digestion
Biomethane
FOS/TAC
Fruit and vegetable waste
Germination index
Organic loading rate
Waste mixed sludge
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Descrizione: Co-treatment of fruit and vegetable waste in sludge digesters. An analysis of the relationship among bio-methane generation, process stability and digestate phytotoxicity
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/413597
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