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Biomodification of Flax Fibrous Materials for Increase of Sorption to Organic Compounds
Joint Authors
Koksharov, S. A.
Aleeva, S. V.
Lepilova, O. V.
Source
International Journal of Chemical Engineering
Issue
Vol. 2019, Issue 2019 (31 Dec. 2019), pp.1-11, 11 p.
Publisher
Hindawi Publishing Corporation
Publication Date
2019-02-20
Country of Publication
Egypt
No. of Pages
11
Abstract EN
This paper was focused on the method to increase of the sorption properties in the flax fibrous material.
This method was based on the original approach which includes the application of enzymatic catalysis as a destruction regulator of the polycarbohydrate components in the bast.
The formed reaction products were used as reagents for reductive destruction of lignin.
The changes in the fiber sorption capacity to the molecular markers were controlled after changing both the polymer composition of the fiber and the size of its pore.
It was determined that the flax sorbents increase the adsorption of phenol vapors to 9–12 times and organic dyes from aqueous solutions to 4 times.
American Psychological Association (APA)
Koksharov, S. A.& Aleeva, S. V.& Lepilova, O. V.. 2019. Biomodification of Flax Fibrous Materials for Increase of Sorption to Organic Compounds. International Journal of Chemical Engineering،Vol. 2019, no. 2019, pp.1-11.
https://search.emarefa.net/detail/BIM-1158652
Modern Language Association (MLA)
Koksharov, S. A.…[et al.]. Biomodification of Flax Fibrous Materials for Increase of Sorption to Organic Compounds. International Journal of Chemical Engineering No. 2019 (2019), pp.1-11.
https://search.emarefa.net/detail/BIM-1158652
American Medical Association (AMA)
Koksharov, S. A.& Aleeva, S. V.& Lepilova, O. V.. Biomodification of Flax Fibrous Materials for Increase of Sorption to Organic Compounds. International Journal of Chemical Engineering. 2019. Vol. 2019, no. 2019, pp.1-11.
https://search.emarefa.net/detail/BIM-1158652
Data Type
Journal Articles
Language
English
Notes
Includes bibliographical references
Record ID
BIM-1158652