Power Ultrasound-Assisted Cleaner Leather Dyeing Technique:  Influence of Process Parameters

The application of power ultrasound to leather processing has a significant role in the concept of “clean technology” for leather production. The effect of power ultrasound in leather dyeing has been compared with dyeing in the absence of ultrasound and conventional drumming. The power ultrasound so...

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Bibliographic Details
Published in:Environmental science & technology 2004-03, Vol.38 (5), p.1616-1621
Main Authors: Sivakumar, Venkatasubramanian, Rao, Paruchuri Gangadhar
Format: Article
Language:English
Subjects:
Acids
Animals
Applied sciences
Cattle
Coloring Agents - chemistry
Dyehouses
Dyes
Ecology
Effluents
Environmental testing
Exact sciences and technology
Hydrolyzable Tannins
Industrial Waste
Industrial wastes
Leather & leather products
Natural water pollution
Other techniques and industries
Pollution
Pollution studies
Scanning electron microscopy
Skin
Temperature
Ultrasonic imaging
Ultrasonic technology
Ultrasonics
Water Pollution - prevention & control
Water Purification - methods
Water treatment and pollution
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Summary:The application of power ultrasound to leather processing has a significant role in the concept of “clean technology” for leather production. The effect of power ultrasound in leather dyeing has been compared with dyeing in the absence of ultrasound and conventional drumming. The power ultrasound source used in these experiments was ultrasonic cleaner (150 W and 33 kHz). The effect of various process parameters such as amount of dye offer, temperature, and type of dye has been experimentally found out. The effect of presonication of dye solution as well as leather has been studied. Experiments at ultrasonic bath temperature were carried out to find out the combined thermal as well as stirring effects of ultrasound. Dyeing in the presence of ultrasound affords about 37.5 (1.8 times) difference as increase in % dye exhaustion or about 50% decrease in the time required for dyeing compared to dyeing in the absence of ultrasound for 4% acid red dye. About 29 (1.55 times) increase in % dye exhaustion or 30% reduction in time required for dyeing was observed using ultrasound at stationary condition compared with conventional dynamic drumming conditions. The effect of ultrasound at constant temperature conditions with a control experiment has also been studied. The dye exhaustion increases as the temperature increases (30−60 °C) and better results are observed at higher temperature due to the use of ultrasound. Presonication of dye solution or crust leather prior to the dyeing process has no significant improvement in dye exhaustion, suggesting ultrasound effect is realized when it is applied during the dyeing process. The results indicate that 1697 and 1416 ppm of dye can be reduced in the spent liquor due to the use of ultrasound for acid red (for 100 min) and acid black (for 3 h) dyes, respectively, thereby reducing the pollution load in the effluent stream. The color yield of the leather as inferred from the reflectance measurement indicates that dye offer can be halved when ultrasound is employed to promote dyeing. Scanning electron microscopy analysis of the cross section of the dyed leather indicates that fiber structure is not affected due to the use of ultrasound under the given process conditions. The present study clearly demonstrates that ultrasound can be used as a tool to improve the rate of exhaustion of dye, reduce pollution load in the spent effluent liquor, and improve the quality of leather produced. The study also offered provision to employ op
ISSN:0013-936X
1520-5851
DOI:10.1021/es034853d