Modeling pyrolytic behavior of pre-oxidized lignin using four representative ß-ether-type lignin-like model polymers
A better understanding of the pyrolytic characteristics of pre-oxidized lignin in which CαH–OH was oxidized to Cα=O group was obtained through four selected β-ether-type lignin-like model polymers containing the H- and G-type subunits. These models were depolymerized in closed ampoule reactor system...
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Veröffentlicht in: | Fuel processing technology 2018-07, Vol.176, p.221 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | A better understanding of the pyrolytic characteristics of pre-oxidized lignin in which CαH–OH was oxidized to Cα=O group was obtained through four selected β-ether-type lignin-like model polymers containing the H- and G-type subunits. These models were depolymerized in closed ampoule reactor system and interrogated using in-situ FTIR. The results show that their degradation products differ significantly in species and yield due to CαH–OH, Cα=O, and aryl–OCH3. The yield of phenolic monomers from oxidized G-type polymer rose to 27.87 wt%, almost twice that of initial G-type polymer. Nevertheless, as for H-type polymer, oxidation of the CαH–OH to Cα=O group lead to decreases in phenolic monomers yield by ~half. The in-situ FTIR indicates that oxidation of the CαH–OH to Cα=O accelerates cleavage of interunit linkages and simplifies depolymerization pathways resulting in better selectivity of phenolic monomers, especially at low pyrolysis temperatures ( |
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ISSN: | 0378-3820 1873-7188 |