Trends in Green Chemistry Open Access

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Potential deconstruction of recycled wood, structural features of isolated lignin and ways to activate it for material applications

Joint Event: 5th International Conference on Green Chemistry and Technology & 6th International Conference on Environmental Chemistry and Engineering
July 24-26, 2017 Rome, Italy

Detlef Schmiedl, Jurgen Graf, Beatrice Tubke, Tiina Liitia, Anna-Stiina Jaaskelainen and Matti Siika-aho

Fraunhofer Institute for Chemical Technology, Germany
VTT Technical Research Center, Finland

Scientific Tracks Abstracts: Trends in Green chem

Abstract:

Statement of the Problem: With global rising use of wood & other lignocelluloses in the future, the importance of efficient utilization of recycled wood (RW) will increase. Present utilization ways of RW-AI (natural wood, only processed mechanically, German classification) are composites & combustion. Composition and availability of RW-AI offer a high potential for valorizing in biorefineries to generate biogenic chemicals & fuels. The efficiency of present & future lignocellulose biorefineries can be increased by valorizing of lignin. Methodology: A potential decomposition process of RW-AI is ethanol based E/W-OrganoSolv cooking to generate well hydrolysable polysaccharides & Sulfur-free lignin. Depending on parameters, high quality lignin charges, differing in yield & features (MN, MW, MW/MN, phenolic & aliphatic OH-groups) are available. It is evident, that valorizing of lignin in several material applications strongly depends on present & on adjustable structural features by chemical modification. Such lignin activation steps are: grafting of molecules, containing defined functional groups (e.g. 2, 3-epoxy-1-propanol & derivatives), onto the lignin-based molecule, as well as catalyzed generation of oligomers, with accompanying elimination of steric hindrances & increase in phenolic OH-groups. Findings: Optimized auto- & acid-catalyzed E/W-OrganoSolv on RW-AI generate lignin yields of 50 to 70% respectively, in high quality & charges differing in structural features. Base Catalyzed Depletion (BCD) of lignin in a continuously plug flow reactor, under gentle to strong conditions, generate BCD-oligomers with yields of 90 to 40% respectively. Structural features of lignin & of oligomers are adjustable. The addition reaction, â�?�?catalyzed, region-selective epoxy-ring-openingâ�? of 2, 3-epoxy-1-propanol by phenolic OHgroups, in alkaline solution or in ethanol is useful to increase the aliphatic OH number in lignin & BCD-Oligomers. Several catalysts are available to use also green solvents, as reaction medium. Conclusion: Such lignin modification processes enlarge the scope of application as a result of changes involved in chemical & physical characteristics.

Biography :

Detlef Schmiedl, PhD, has his expertise in bioeconomy, lignocellulose biorefinery and chemical modification processes of macro molecules, like lignin, with the target to develop and to illustrate process parameter effects on structural features, structure-function-relationships and catalyzed chemical modification path ways. His passion is to develop environmental friendly, chemical processes according to the principles of green chemistry.

Email: detlef.schmiedl@ict.fraunhofer.de