Gayubo, A. G. published the artcilePyrolytic lignin removal for the valorization of biomass pyrolysis crude bio-oil by catalytic transformation, Computed Properties of 1193-11-9, the publication is Journal of Chemical Technology and Biotechnology (2010), 85(1), 132-144, database is CAplus.
BACKGROUND: The catalytic processes for valorizing the bio-oil obtained from lignocellulosic biomass pyrolysis face the problem that a great amount of carbonaceous material is deposited on the catalyst due to the polymerization of phenol-derived compounds in the crude bio-oil. This carbonaceous material blocks the catalytic bed and contributes to rapid catalyst deactivation. This paper studies an online two-step process, in which the first one separates the polymerizable material and produces a reproducible material whose valorization is of com. interest. RESULTS: The establishment of a step for pyrolytic lignin deposition at 400 °C avoids the blockage of the online catalytic bed and attenuates the deactivation of a HZSM-5 zeolite based catalyst used for hydrocarbon production The origin of catalyst deactivation is coke deposition, which has two fractions (thermal and catalytic), whose content is attenuated by prior pyrolytic lignin separation and by co-feeding methanol. The morphol. and properties of the material deposited in the first step (pyrolytic lignin) are similar to lignins obtained as a byproduct in wood pulp manufacturing CONCLUSIONS: The proposed reaction strategy, with two steps (thermal and catalytic) in series, valorizes the crude bio-oil by solving the problems caused by the polymerization of phenolic compounds, which are obtained in the pyrolysis of the lignin contained in lignocellulosic biomass. Given that a byproduct (pyrolytic lignin) is obtained with similar properties to the lignin from wood pulping manufacturing, the perspectives for the viability of lignocellulosic biomass valorization are promising, which is essential for furthering its implementation in biorefinery processes. Copyright © 2009 Society of Chem. Industry.
Journal of Chemical Technology and Biotechnology published new progress about 1193-11-9. 1193-11-9 belongs to dioxole, auxiliary class Dioxolanes, name is 2,2,4-Trimethyl-1,3-dioxolane, and the molecular formula is C6H12O2, Computed Properties of 1193-11-9.
Referemce:
https://en.wikipedia.org/wiki/1,3-Benzodioxole,
Dioxole | C3H4O2 – PubChem