Acid Assisted Organosolv Delignification of Beechwood and Pulp Conversion towards High Concentrated Cellulosic Ethanol via High Gravity Enzymatic Hydrolysis and Fermentation

Future biorefineries will focus on converting low value waste streams to chemical products that are derived from petroleum or refined sugars. Feedstock pretreatment in a simple, cost effective, agnostic manner is a major challenge. In this work, beechwood sawdust was delignified via an organosolv pr...

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Veröffentlicht in:Molecules (Basel, Switzerland) Switzerland), 2018-07, Vol.23 (7), p.1647
Hauptverfasser: Kalogiannis, Konstantinos G, Matsakas, Leonidas, Aspden, James, Lappas, Angelos A, Rova, Ulrika, Christakopoulos, Paul
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Sprache:eng
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Zusammenfassung:Future biorefineries will focus on converting low value waste streams to chemical products that are derived from petroleum or refined sugars. Feedstock pretreatment in a simple, cost effective, agnostic manner is a major challenge. In this work, beechwood sawdust was delignified via an organosolv process, assisted by homogeneous inorganic acid catalysis. Mixtures of water and several organic solvents were evaluated for their performance. Specifically, ethanol (EtOH), acetone (AC), and methyl- isobutyl- ketone (MIBK) were tested with or without the use of homogeneous acid catalysis employing sulfuric, phosphoric, and oxalic acids under relatively mild temperature of 175 °C for one hour. Delignification degrees (DD) higher than 90% were achieved, where both AC and EtOH proved to be suitable solvents for this process. Both oxalic and especially phosphoric acid proved to be good alternative catalysts for replacing sulfuric acid. High gravity simultaneous saccharification and fermentation with an enzyme loading of 8.4 mg/g at 20 wt.% initial solids content reached an ethanol yield of 8.0 / %. Efficient delignification combining common volatile solvents and mild acid catalysis allowed for the production of ethanol at high concentration in an efficient manner.
ISSN:1420-3049
1431-5157
1420-3049
DOI:10.3390/molecules23071647