Preparation of biomass-based activated carbons and their evaluation for biogas upgrading purposes

Preparation of biomass-based activated carbons and their evaluation for biogas upgrading purposes

•Waste biomass is an attractive raw material for the synthesis of activated carbons.•Babassu coconut (Orbignya speciosa) was used to prepare activated carbons.•Biosorbents were tested for the process of biogas upgrade.•The performance of biosorbents is comparable to commercial samples for CO2 remova...

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Bibliographic Details
Published in:Industrial crops and products Vol. 109; pp. 134 - 140
Main Authors: Vilella, Priscila Costa, Lira, Jéssyca Alves, Azevedo, Diana C.S., Bastos-Neto, Moisés, Stefanutti, Ronaldo
Format: Journal Article
Language:English
Published: Elsevier B.V 15-12-2017
Subjects:
Activated carbon
Babassu coconut
Biogas upgrading
Biosorbent
Coconut shell
Biosorbent
Biogas upgrading
Coconut shell
Activated carbon
Babassu coconut
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Summary:•Waste biomass is an attractive raw material for the synthesis of activated carbons.•Babassu coconut (Orbignya speciosa) was used to prepare activated carbons.•Biosorbents were tested for the process of biogas upgrade.•The performance of biosorbents is comparable to commercial samples for CO2 removal. The use of waste biomass to produce adsorbent materials for the process of biogas upgrading might be a sustainable way to improve the energy matrix and help developing waste disposal technologies. The objective of this study was to prepare and evaluate activated carbons from coconut shell and babassu coconut, a waste biomass highly available at low cost. Both carbon samples were prepared by physical activation with CO2 and characterized by N2 adsorption isotherms at 77K. The biosorbents produced from babassu and coconut shells presented BET surface areas of 1452m2/g and 809m2/g, respectively. Their applicability to upgrade biogas was assessed by experimental evaluation of pure (CO2 and CH4) and mixture (CO2/CH4) adsorption equilibrium data at 293K and pressures up to 10bar. The results were used to compare the performance of the samples prepared in this work with a commercial sample. Adsorption capacity for carbon dioxide was similar for both synthesized samples, but the activated carbon from coconut shell presented better properties for CO2/CH4 separation, as its selectivity (4.2 at 1bar) and working capacity (1.0mmol/g at 3bar) are comparable to those of the commercial adsorbent over the low pressure range studied. This indicates that biomass waste is an interesting precursor for the production of activated carbons for biogas upgrading.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2017.08.017