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Effect of sodium hydroxide pretreatment on physical, chemical characteristics and methane production of five varieties of sorghum

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  • Sambusiti, C.
  • Ficara, E.
  • Malpei, F.
  • Steyer, J.P.
  • Carrère, H.

Abstract

Sorghum bicolor [L.] Moench, represents an interesting substrate for methane production. The aim of this study was to evaluate the effect of alkaline pretreatment on chemical composition, physical structure and methane production of five varieties of sorghum (S1, S2, S3, S4, and S5). The pretreatment was conducted in closed bottles, at 55 °C for 12 h. Samples were soaked in a NaOH solution at 4 and 10 gNaOH/100 gTS, with a solid concentration of 35 gTS/L. Sodium hydroxide pretreatment led to a reduction of lignin (50–70%), hemicelluloses (18–35%), cellulose (16–45%) and galacturonic acids (up to 100%), for all varieties of sorghum, as also confirmed by Fourier transform infrared spectroscopy analyses. The reduction of lignin content and thereafter the solubilization of cellulose and hemicelluloses, previously observed, can accelerate the disintegration and the hydrolysis steps during anaerobic digestion. Indeed, an increase in the first order kinetic constant was observed by increasing the alkaline dosage (by 40%, 61%, 64%, 54%, and 40% for sorghum S1, S2, S3, S4, and S5, respectively). Nevertheless, the sodium hydroxide pretreatment had no positive effect in enhancing the methane yields (270 ± 13, 335 ± 11, 294 ± 1, 327 ± 9 and 303 ± 24 mL CH4/gVS for S1, S2, S3, S4 and S5, respectively).

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  • Sambusiti, C. & Ficara, E. & Malpei, F. & Steyer, J.P. & Carrère, H., 2013. "Effect of sodium hydroxide pretreatment on physical, chemical characteristics and methane production of five varieties of sorghum," Energy, Elsevier, vol. 55(C), pages 449-456.
    • Handle: RePEc:eee:energy:v:55:y:2013:i:c:p:449-456
    DOI: 10.1016/j.energy.2013.04.025
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    Cited by:

    1. Divya Joslin Mathias & Thiago Edwiges & Napong Ketsub & Rajinder Singh & Prasad Kaparaju, 2023. "Sweet Sorghum as a Potential Fallow Crop in Sugarcane Farming for Biomethane Production in Queensland, Australia," Energies, MDPI, vol. 16(18), pages 1-17, September.
    2. Lübken, Manfred & Koch, Konrad & Gehring, Tito & Horn, Harald & Wichern, Marc, 2015. "Parameter estimation and long-term process simulation of a biogas reactor operated under trace elements limitation," Applied Energy, Elsevier, vol. 142(C), pages 352-360.
    3. Stamenković, Olivera S. & Siliveru, Kaliramesh & Veljković, Vlada B. & Banković-Ilić, Ivana B. & Tasić, Marija B. & Ciampitti, Ignacio A. & Đalović, Ivica G. & Mitrović, Petar M. & Sikora, Vladimir Š., 2020. "Production of biofuels from sorghum," Renewable and Sustainable Energy Reviews, Elsevier, vol. 124(C).
    4. Brémond, Ulysse & de Buyer, Raphaëlle & Steyer, Jean-Philippe & Bernet, Nicolas & Carrere, Hélène, 2018. "Biological pretreatments of biomass for improving biogas production: an overview from lab scale to full-scale," Renewable and Sustainable Energy Reviews, Elsevier, vol. 90(C), pages 583-604.
    5. Manzone, Marco & Calvo, Angela, 2016. "Energy and CO2 analysis of poplar and maize crops for biomass production in north Italy," Renewable Energy, Elsevier, vol. 86(C), pages 675-681.
    6. Janke, Leandro & Weinrich, Sören & Leite, Athaydes F. & Sträuber, Heike & Nikolausz, Marcell & Nelles, Michael & Stinner, Walter, 2019. "Pre-treatment of filter cake for anaerobic digestion in sugarcane biorefineries: Assessment of batch versus semi-continuous experiments," Renewable Energy, Elsevier, vol. 143(C), pages 1416-1426.

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