Abstract
Over the years, the organosolv pulping process has proven to be a valuable pretreatment method for various lignocellulosic feedstocks. The objective of this study was to characterize and assess the potential applicability of the organosolv lignin fraction from European larch sawdust, as no research has been conducted in this field so far. Eight different samples were prepared from the European larch sawdust under varied reaction conditions and one milled wood lignin sample as reference. The reaction temperature and sulfuric acid loading were varied between 420 and 460 K and 0.00 and 1.10% (w/w on dry wood basis) H2SO4, respectively. The antiradical potential (via DPPH• method), chemical structure (via ATR-FTIR, 1H NMR, 31P NMR, and thioacidolysis), as well as the molecular weight distribution of the isolated lignins were analyzed and compared. Results from thioacidolysis show a direct correlation between the amount of β-ether bonds broken and pulping process severity. Similarly, both antiradical potential and phenolic hydroxyl group content exhibit a direct relationship to reaction temperature and catalyst loading. On the contrary, the content of aliphatic hydroxyl groups and the average molecular weights both decreased with increasing process severity. The high content of phenolic hydroxyl groups and antioxidative potential of the larch organosolv fractions, especially for the sample isolated at 460 K and 1.10% H2SO4 loading, indicate good applicability as antioxidants as well as feedstocks for further downstream valorization and require additional research in this area.
Highlights
Over the years, the organosolv pulping process has proven to be a valuable pretreatment method for various lignocellulosic feedstocks. e objective of this study was to characterize and assess the potential applicability of the organosolv lignin fraction from European larch sawdust, as no research has been conducted in this field so far
No predrying was performed because high moisture content facilitates feedstock impregnation with pulping liquor and increases the delignification rate [32]. e pretreatment time was set to 0.5 h as preliminary experiments have shown that there is no significant difference in lignin yield between 0.5 and 1.0 h. e maximum yield of ethanol organosolv lignin (EOL), 21.82% (w/w), was achieved at 460 K with a catalyst loading of 1.65% (w/w)
For the rst time, the relationship between physicochemical characteristics and pulping conditions of ethanol organosolv lignins from the European larch are investigated. is study should serve as the initial step for possible future applications of larch organosolv lignins as antioxidant or feedstock for biopolymer production
Summary
The organosolv pulping process has proven to be a valuable pretreatment method for various lignocellulosic feedstocks. e objective of this study was to characterize and assess the potential applicability of the organosolv lignin fraction from European larch sawdust, as no research has been conducted in this field so far. Results from thioacidolysis show a direct correlation between the amount of β-ether bonds broken and pulping process severity Both antiradical potential and phenolic hydroxyl group content exhibit a direct relationship to reaction temperature and catalyst loading. E high content of phenolic hydroxyl groups and antioxidative potential of the larch organosolv fractions, especially for the sample isolated at 460 K and 1.10% H2SO4 loading, indicate good applicability as antioxidants as well as feedstocks for further downstream valorization and require additional research in this area. E organosolv pulping process is one option of biorefinery concepts that can efficiently separate biomass into cellulose-, hemicellulose-, and lignin-rich fractions It was developed over 80 years ago by Kleinert and Tayenthal [2] for the fractionation of multiple types of lignocellulosic feedstocks, including wood and agricultural wastes, using low-boiling point water-miscible solvents as pulping agents. Nitsos et al focused on acid-catalyzed organosolv pulping of spruce. ey reached a feedstock delignification
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