Catalytic pyrolysis of lignocellulosic biomass received considerable attention in the literature. Utilizationof natural and waste materials as catalysts to improve the yields and quality of desiredpyrolysis products is also an interesting option that deserves further investigation. In the presentwork Eggshell waste (EGW), a naturally calcium-rich material, is investigated as a catalyst forpyrolysis of two different (woody and a non-woody) Mediterranean biomass wastes: pine wood(PPC) and pomegranate peels (PGP).Slow pyrolysis was carried out at a constant temperature of 500 °C, 10 °C/min heating rate, and60 min residence time with 250 mL/min N2 flow rate. The biomass samples were characterized interms of proximate and ultimate analyses, mineral content, and high heating value (HHV). Theywere also analysed by FTIR spectroscopy, X-ray diffraction (XRD), and thermogravimetry. Thebio-oils produced by pyrolysis of single fuels and mixtures with EGW (in the ratio 1:1) were characterizedby GC-MS analysis and the quality in terms of chemical families was discussed.Results revealed that PPC bio-oil composition is dominated by oxygenated aromatics (~53 %),retene derivative, and anhydrosugars compounds, while, PGP oil mostly contained fine chemicalswith oxygen, in particular furfural (~50 %) and anhydrosugars (~20 %). Co-pyrolysis results suggestthat the alkali and alkaline-earth metals (AAEMs) present in the EGW affect pyrolysis oilcomposition, indeed, GC-MS confirmed that the addition of EGW increased the content of oxygenatedaromatics and reduced the amount of anhydrosugar, retene derivative, and aliphatic compoundsfor PPC-EGW
Use of egg shells wastes for catalytic pyrolysis of lignocellulosic biomass
A. Maaoui
Primo
;R. Chagtmi;F. Cerciello;M. Urciuolo;F. Stanzione;R. Migliaccio;O. Senneca;B. Apicella
2023
Abstract
Catalytic pyrolysis of lignocellulosic biomass received considerable attention in the literature. Utilizationof natural and waste materials as catalysts to improve the yields and quality of desiredpyrolysis products is also an interesting option that deserves further investigation. In the presentwork Eggshell waste (EGW), a naturally calcium-rich material, is investigated as a catalyst forpyrolysis of two different (woody and a non-woody) Mediterranean biomass wastes: pine wood(PPC) and pomegranate peels (PGP).Slow pyrolysis was carried out at a constant temperature of 500 °C, 10 °C/min heating rate, and60 min residence time with 250 mL/min N2 flow rate. The biomass samples were characterized interms of proximate and ultimate analyses, mineral content, and high heating value (HHV). Theywere also analysed by FTIR spectroscopy, X-ray diffraction (XRD), and thermogravimetry. Thebio-oils produced by pyrolysis of single fuels and mixtures with EGW (in the ratio 1:1) were characterizedby GC-MS analysis and the quality in terms of chemical families was discussed.Results revealed that PPC bio-oil composition is dominated by oxygenated aromatics (~53 %),retene derivative, and anhydrosugars compounds, while, PGP oil mostly contained fine chemicalswith oxygen, in particular furfural (~50 %) and anhydrosugars (~20 %). Co-pyrolysis results suggestthat the alkali and alkaline-earth metals (AAEMs) present in the EGW affect pyrolysis oilcomposition, indeed, GC-MS confirmed that the addition of EGW increased the content of oxygenatedaromatics and reduced the amount of anhydrosugar, retene derivative, and aliphatic compoundsfor PPC-EGWFile | Dimensione | Formato | |
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