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The use of exhausted grape marc to produce biofuels and biofertilizers: Effect of pyrolysis temperatures on biochars properties

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  • Ibn Ferjani, A.
  • Jeguirim, M.
  • Jellali, S.
  • Limousy, L.
  • Courson, C.
  • Akrout, H.
  • Thevenin, N.
  • Ruidavets, L.
  • Muller, A.
  • Bennici, S.

Abstract

The wine industry represents an important economic sector in the Mediterranean countries. Currently, grape marc is valorized for ethanol production by distillation process generating a second residue called exhausted grape marc (EGM) that should be properly managed in order to avoid any related negative impacts onto the environment. In the present investigation, an innovative strategy was proposed to convert EGM into biofuels and biofertilizers through thermochemical conversion process such as carbonization/pyrolysis technique. In order to select the appropriate operating parameters, the impact of the slow pyrolysis temperatures of EGM (from 300 to 700 °C) on biochar production yields as well as their physico-chemical characteristics were assessed. The experimental results showed that the biochars yields production decrease with increasing the pyrolysis temperature and reach a plateau above 500 °C. The biochar yield at 500 °C is around 33%, which is amongst the highest values obtained for food processing residues. The biochar physico-chemical characterization showed a higher surface area (253.4 m2/g) was obtained for the char prepared at 600 °C. However, the maximum nutrients contents, namely potassium, nitrogen and phosphorus were registered at 500 °C. Based on the biochar yields and characteristics, it seems that EGM biochar produced through slow pyrolysis at 500 °C could be considered as a promising biofertilizer for agricultural purposes.

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  • Ibn Ferjani, A. & Jeguirim, M. & Jellali, S. & Limousy, L. & Courson, C. & Akrout, H. & Thevenin, N. & Ruidavets, L. & Muller, A. & Bennici, S., 2019. "The use of exhausted grape marc to produce biofuels and biofertilizers: Effect of pyrolysis temperatures on biochars properties," Renewable and Sustainable Energy Reviews, Elsevier, vol. 107(C), pages 425-433.
    • Handle: RePEc:eee:rensus:v:107:y:2019:i:c:p:425-433
    DOI: 10.1016/j.rser.2019.03.034
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    Cited by:

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    3. Han, Lanfang & Sun, Haoran & Sun, Ke & Yang, Yan & Fang, Liping & Xing, Baoshan, 2021. "Effect of Fe and Al ions on the production of biochar from agricultural biomass: Properties, stability and adsorption efficiency of biochar," Renewable and Sustainable Energy Reviews, Elsevier, vol. 145(C).
    4. Kawthar Frikha & Lionel Limousy & Muhammad Bilal Arif & Nicolas Thevenin & Lionel Ruidavets & Mohamed Zbair & Simona Bennici, 2021. "Exhausted Grape Marc Derived Biochars: Effect of Pyrolysis Temperature on the Yield and Quality of Biochar for Soil Amendment," Sustainability, MDPI, vol. 13(20), pages 1-17, October.
    5. Zouhair Elkhlifi & Jerosha Iftikhar & Mohammad Sarraf & Baber Ali & Muhammad Hamzah Saleem & Irshad Ibranshahib & Mozart Daltro Bispo & Lucas Meili & Sezai Ercisli & Ehlinaz Torun Kayabasi & Naser Ale, 2023. "Potential Role of Biochar on Capturing Soil Nutrients, Carbon Sequestration and Managing Environmental Challenges: A Review," Sustainability, MDPI, vol. 15(3), pages 1-18, January.
    6. Samar Hadroug & Salah Jellali & Mejdi Jeguirim & Marzena Kwapinska & Helmi Hamdi & James J. Leahy & Witold Kwapinski, 2021. "Static and Dynamic Investigations on Leaching/Retention of Nutrients from Raw Poultry Manure Biochars and Amended Agricultural Soil," Sustainability, MDPI, vol. 13(3), pages 1-26, January.

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