One-pot, microwave (MW)-assisted production of furfural from almond-, oil-, and wine-derived co-products through biorefinery-based approaches

•A microwave-assisted protocol towards biofuel precursor furfural (FF) was implemented.•Namely almond hull (AH), olive stone (OS), and wine-derived by-products were evaluated.•Mild conditions (150 °C, 10–20 min) and green strategies (AlCl3·6H2O) were applied.•Noted molar yield (38–42 %) and selectiv...

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Published in:Waste management (Elmsford) 2024-09, Vol.186, p.280-292
Main Authors: Salgado-Ramos, Manuel, José Huertas-Alonso, Alberto, Lorente, Almudena, Prado Sánchez-Verdú, María, Moreno, Andrés, Cabañas, Beatriz
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Language:English
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Biofuel precursor
Biorefinery
Environmental chemical engineering
Furfural
Process intensification technologies
Waste management
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container_title Waste management (Elmsford)
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creator Salgado-Ramos, Manuel
José Huertas-Alonso, Alberto
Lorente, Almudena
Prado Sánchez-Verdú, María
Moreno, Andrés
Cabañas, Beatriz
description •A microwave-assisted protocol towards biofuel precursor furfural (FF) was implemented.•Namely almond hull (AH), olive stone (OS), and wine-derived by-products were evaluated.•Mild conditions (150 °C, 10–20 min) and green strategies (AlCl3·6H2O) were applied.•Noted molar yield (38–42 %) and selectivity (50–60 %) were achieved from AH and OS.•Sustainable waste management and biorefinery approaches were assessed. This work outlines the first microwave (MW)-assisted protocol for the production of biofuel precursor furfural (FF) from the raw agricultural waste almond hull (AH), olive stone (OS), and the winemaking-derived grape stalk (GS), grape marc (GM) and exhausted grape marc (EGM) through a one-pot synthesis process. To enhance the overall yield, a catalytic process was firstly developed from xylose, major constituent of hemicellulose present in lignocellulosic biomass. This method afforded FF with 100 % selectivity, yielding over 85 % in isolated product when using H2SO4, as opposed to a 37 % yield with AlCl3·6H2O, at 150 °C in only 10 min. For both catalysts, the developed methodology was further validated, proving adaptable and efficient in producing the targeted FF from the aforementioned lignocellulosic raw materials. More specifically, the employment of AlCl3·6H2O resulted in the highest selectivity (up to 89 % from GM) and FF yield (42 % and 39 % molar from OS and AH, respectively), maintaining notable selectivity for the latter (61 and 48 % from AH and OS). At this regard, and considering the environmental factor of sustainability, it is important to point out the role of AlCl3·6H2O in contrast to H2SO4, thus mitigating detrimental substances. This study provides an important management of agricultural waste through sustainable practises for the development of potential bio-based chemicals, aligning with Green Chemistry and process intensification principles.
doi_str_mv 10.1016/j.wasman.2024.06.009
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This work outlines the first microwave (MW)-assisted protocol for the production of biofuel precursor furfural (FF) from the raw agricultural waste almond hull (AH), olive stone (OS), and the winemaking-derived grape stalk (GS), grape marc (GM) and exhausted grape marc (EGM) through a one-pot synthesis process. To enhance the overall yield, a catalytic process was firstly developed from xylose, major constituent of hemicellulose present in lignocellulosic biomass. This method afforded FF with 100 % selectivity, yielding over 85 % in isolated product when using H2SO4, as opposed to a 37 % yield with AlCl3·6H2O, at 150 °C in only 10 min. For both catalysts, the developed methodology was further validated, proving adaptable and efficient in producing the targeted FF from the aforementioned lignocellulosic raw materials. 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subjects Biofuel precursor
Biorefinery
Environmental chemical engineering
Furfural
Process intensification technologies
Waste management
title One-pot, microwave (MW)-assisted production of furfural from almond-, oil-, and wine-derived co-products through biorefinery-based approaches
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