New adsorbents from maize cob wastes and anaerobic digestate for H 2 S removal from biogas

Two activated carbons (ACs) were prepared by physical activation of Maize Cob Waste (MCW) with CO , during 2 and 3 h (MCW(PA)2h and MCW(PA)3h, respectively). Two other ACs were prepared by chemical activation: a) MCW(LD) - MCW was impregnated with anaerobic liquid digestate (LD) and carbonized under...

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Bibliographic Details
Published in:Waste management (Elmsford) 2019-07, Vol.94, p.136
Main Authors: Surra, Elena, Costa Nogueira, Miguel, Bernardo, Maria, Lapa, Nuno, Esteves, Isabel, Fonseca, Isabel
Format: Article
Language:English
Subjects:
Anaerobiosis
Biofuels
Charcoal
Zea mays
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Summary:Two activated carbons (ACs) were prepared by physical activation of Maize Cob Waste (MCW) with CO , during 2 and 3 h (MCW(PA)2h and MCW(PA)3h, respectively). Two other ACs were prepared by chemical activation: a) MCW(LD) - MCW was impregnated with anaerobic liquid digestate (LD) and carbonized under N atmosphere; and b) CAR-MCW(LD) - previously carbonized MCW was impregnated with LD and carbonized under N atmosphere. All ACs were fully characterized for textural and chemical properties, and then used in dynamic H S removal assays from real biogas samples. Regarding H S removal, the ACs that were physically activated behaved much better than the impregnated ones: MCW(PA)3h and MCW(PA)2h showed H S uptake capacities of 15.5 and 0.65 mg g , respectively, while MCW(LD) and CAR-MCW(LD) showed values of 0.47 and 0.25 mg g , respectively. This may indicate that textural properties (surface area and microporosity) are more important than mineral content in H S removal. Effectively, both surface area and micropore volume were much higher for the samples of MCW(PA)3h (S  = 820 m  g and V  = 0.32 cm  g ) and MCW(PA)2h (S  = 630 m  g and V  = 0.21 cm  g ) than for the ACs that were chemically activated (S  = 38.0 m  g and V  = 0.01 cm  g for MCW(LD); S  = 8.0 m  g and V  = 0.01 cm  g for CAR-MCW(LD)). High oxygen content in MCW(PA)3h favoured the catalytic oxidation reaction of H S, promoting its removal. The use of MCW as precursor and LD as activating agent of the ACs may contribute for the integrated management of maize wastes and to diversify the applications of anaerobic digestate.
ISSN:1879-2456
DOI:10.1016/j.wasman.2019.05.048