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Journal of Wood Chemistry and Technology Volume 32, 2012 - Issue 3
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Original Articles

Understanding the Impact of Supercritical Carbon Dioxide on the Delignification Mechanism During Organosolv Pulping: A Model Compound Study

Michael Schrems Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
,
Falk Liebner Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
,
Markus Betz Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
,
Martin Zeilinger Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
,
Stefan Böhmdorfer Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
,
Thomas Rosenau Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
&
Antje Potthast Christian-Doppler-Laboratory “Advanced Cellulose Chemistry and Analytics,” Department of Chemistry, University of Natural Resources and Life Sciences, Vienna, Austria
 show all
Pages 225-237 | Published online: 21 May 2012
 
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Abstract

The delignification pathways during Organosolv pulping with and without involvement of supercritical carbon dioxide (scCO2) were studied with lignin model substances. As expected, the degradation rate of all model compounds depended strongly on the temperature, and model compounds carrying a “free” phenolic hydroxyl group were found to be significantly more reactive than their methoxylated, non-phenolic counterparts. Supercritical carbon dioxide was found to enhance the delignification process by lowering the activation energy and accelerating the model substance decay; therefore its application in Organosolv concepts appears reasonable and further studies are proposed. While consumption of the model compounds was accelerated by scCO2, the formation of stable end products was slowed down, which is explained by the stabilization of intermediates.

Acknowledgments

The financial support by the Christian Doppler Research Society (CD-laboratory “Advanced Cellulose Chemistry and Analytics”) is gratefully acknowledged.

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