Modern manufacturing processes assume efficient utilization and recycling of
natural resources whenever possible. Over the past decade paper recycling has progressed
from 33.5% in 1990 to just above 48% in 2002.1 Indeed, for certain select grades,
(newspaper and old corrugated containers) greater than 70% is currently being recycled.
In contrast, mixed office waste and colored directory papers are often underutilized. A
major difficulty in recycling these grades of paper is the problems associated with
decolorizing the dyes present in the paper.2 Of the commonly used paper dyes, the
stilbene dye Direct Yellow 113 and methine dye Basazol 46L are notorious4 for poor
bleachability with the commonly used chemical bleaching agents including chlorine
dioxide, oxygen, hydrogen peroxide and sodium dithionite.
The ability of white-rot fungi to decolorize colored effluents containing textile
dyes is currently the subject of intensive research efforts. The secreted enzymes involved
in dye decolorization include manganese peroxidase, lignin peroxidase and laccase.
Laccase, a lignolytic enzyme, has also been studied for many years for the biobleaching
of wood pulps. The ability of laccase to delignify pulp is greatly enhanced by the addition
of small molecule mediators such as 2-2ยด azinobis (3-ethylbenzthiazoline-6-sulfonate)
(ABTS) and 1-hydroxybenzotriazole (HBT).
This research project focused on applying laccase combined with a mediator to
decolorize C.I. Direct Yellow 11 and Basazol 46L. Three mediators were tested: ABTS,
HBT and violuric acid. Laccase/ABTS was most effective with 60% of the color being
removed. The level of color removal was maintained at 60% even when ABTS
concentration was lowered from 5 mM to 0.01 mM. When laccase/1 mM ABTS was
applied to Direct Yellow 11 in solution, the majority of color loss occurred within 60
minutes.
The ability of soybean (SBP) and horseradish (HRP) peroxidases and laccase to
decolorize Direct Yellow 11 and Basazol 46L in solution was also examined. The results
demonstrated that these two recalcitrant dyes could be effectively decolorized by
enzymatic treatments by horseradish peroxidase, soybean peroxidase, and laccase with
ABTS as mediator. SBP is effective from pH 4.5 to 8.5. The stilbene dye Direct Yellow
11 responded to both SBP and laccase/ABTS. For the methine dye Basazol 46L, SBP was
a more effective treatment than HRP or laccase/ABTS. Basazol 46L responded quickly to
SBP treatment with 74% reduction in signal intensity within 5 minutes.
To evaluate the effectiveness of laccase/ABTS treatment, pulp dyed with Direct
Yellow 11 and three commercial colored pulps were subjected to seven different
bleaching treatments. These treatments consisted of 1)laccase/ABTS; 2)laccase/ABTS
followed by alkaline extraction; 3)laccase/ABTS followed by bleaching with sodium
dithionite; 4)oxygen bleaching; 5)oxygen bleaching followed by dithionite treatment;
6)alkaline hydrogen peroxide bleaching; and 7)alkaline peroxide bleaching followed by
dithionite treatment. The best results were obtained by including reductive bleaching with
sodium dithionite. For Direct Yellow 11 dyed pulp, laccase/ABTS followed by dithionite
yield comparable reduction in color to oxygen or peroxide followed by dithionite.
| Identifer | oai:union.ndltd.org:GATECH/oai:smartech.gatech.edu:1853/7959 |
| Date | 07 December 2004 |
| Creators | Knutson, Kristina Parks |
| Publisher | Georgia Institute of Technology |
| Source Sets | Georgia Tech Electronic Thesis and Dissertation Archive |
| Language | en_US |
| Detected Language | English |
| Type | Dissertation |
| Format | 5048910 bytes, application/pdf |
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