The development of cement and concrete additive: based on xylonic acid derived via bioconversion of xylose

The development of cement and concrete additive: based on xylonic acid derived via bioconversion of xylose

The present work attempted to utilize xylose by converting it to an aldonic acid. In the present study, xylose was converted to xyloni acid by using commercial glucose oxidase enzyme, palladium catalysis, and microbial bioconversion. The enzyme conversion was successfully done using a commercial glu...

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Veröffentlicht in:Applied biochemistry and biotechnology 2006-03, Vol.131 (1-3), p.645
Hauptverfasser: Chun, Byon-Wa, Dair, Benita, Macuch, Patrick J, Wiebe, Debbie, Porteneuve, Charloote, Jeknavorian, Ara
Format: Artikel
Sprache:eng
Schlagworte:
Acids - chemistry
Biotransformation
Construction Materials - analysis
Gluconobacter oxydans - metabolism
Glucose Oxidase - chemistry
Materials Testing
Wood - microbiology
Xylose - chemistry
Xylose - metabolism
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Zusammenfassung:The present work attempted to utilize xylose by converting it to an aldonic acid. In the present study, xylose was converted to xyloni acid by using commercial glucose oxidase enzyme, palladium catalysis, and microbial bioconversion. The enzyme conversion was successfully done using a commercial glucose oxidase. The microbial conversion with Gluconobactor oxydans proceeded even with the presence of a large amount of lignosulfonate. Thus obtained xylonic acid products were evaluated as a cement dispersing agent in cement and concrete tests. It was found that xylonic acid is approximately twice as effective as lignosulfonate. Xylonic acid can be effectively utilized in concrete water reducer application.
ISSN:1559-0291