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Scouring of Sheep Wool Using an Acoustic Ultrasound Wave

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper describes a method of scouring sheep wool using ultrasound.The inspiration to start work on the use of ultrasound in the process of scouring sheep wool was positive results that had already been achieved for alpaca wool. Due to the fact that sheep wool has many more impurites than alpaca wool, the scouring process is divided into two stages. The first involves the removal of faeces from the wool, which may be up to about 35% of the impurities of sheep wool, while the second stage involves the scouring cycle, wherein the remaining impurities are removed. The ultrasonic scouring process uses domestic merino wool heavily clad, particularly, by faeces. In this study, detergent solutions, alkali soap and sodium carbonate were used. The scouring of wool was carried out with a special apparatus equipped with an ultrasonic generator, at a frequency of 40 kHz. To determine the optimal conditions for scouring sheep wool that could affect the amount of impurities removed, the following parameters were examined: the effect of the scouring time, the concentration of detergents, and the scouring bath ratio. The study resulted in achieving optimal scouring parameters that ensured a satisfactory level of the removal of wool impurities.
Rocznik
Strony
44--48
Opis fizyczny
Bibliogr. 28 poz., rys., tab.
Twórcy
  • Association of Polish Textile, Łódź, Poland
  • Lodz University of Technology, Faculty of Material Technologies and Textile Design, Department of Mechanical Engineering, Informatics and Chemistry of Polymer Materials, Żeromskiego 116, 90-924 Łódź, Poland
  • Polish Committee for Standardization, Textile Machinery Section, Łódź, Poland
Bibliografia
  • 1. Braniša J, Cvik M, Porubská M. Sheep Wool Can Be Scoured Sufficiently without Any Chemicals. Fibres and Textiles 2019; 26(2): 3-8.
  • 2. Stewart RG. Woolscouring and Allied Technology. New Zealand: WRONZ (Wool Research Organization of New Zealand); 1988.
  • 3. Harafi T, Montazer M. A Review on Textile Sonoprocessing: A Special Focus on Sonosynthesis of Nanomaterials on Textile Substrates. Ultrasonics Sonochemistry 2015; 23:1-10.
  • 4. Vaibhav VV, Hule AA. Ultrasonic Assisted Wet Processing. J. Basic Appl. Eng. Res. 2015; 2(1): 79-82.
  • 5. Brennen CE. Cavitation and Bubble Dynamics. New York: Oxford University Press; 1995.
  • 6. Thakore KA, Shmith CB. Clapp TG. Application of Ultrasounds to Textiles Wet Processing. American Dyestuff Reporter 1990; 10.
  • 7. Czaplicki Z. Ruszkowski. K. Technology of the Scouring Small Batches of Wool with The Use of Ultrasound Generators. Przegląd Włókienniczy WOS 2010; 1: 29-30.
  • 8. Czaplicki Z, Ruszkowski. K. Optimization of Scouring Alpaca Wool by Ultrasonic Technique. Journal of Natural Fibres 2014; 11(2): 169-183.
  • 9. Cui YH. Application of Ultrasonic in Wool Scouring. Journal China Textile Uni. 1999; 25(2): 50-54.
  • 10. Guo Y, Zhang ML. Ultrasonic Scouring Process. Textile Research Journal 2006; 27(10): 96-98.
  • 11. Guo Y, Hang ML, Wang YH, et al. Evaluation of Ultrasonic Wool Scouring. Wool Textile Journal 2006; 12: 9-11.
  • 12. Li Q, Hurren CJ, Wang LJ, Lin T, Yu HX, Ding CL, Wang XD. Frequency Dependence of Ultrasonic Wool Scouring. Journal of the Textile Institute 2011, 102(6): 50-51.
  • 13. Li Q, Hurren CJ, Yu H, Ding C, Wang X. Thermal and Mechanical Properties of Ultrasonically Treated Wool. Textile Research Journal 2011; 82(2): 195-202.
  • 14. Li Q, Lin T, Wang XG. Effects of Ultrasonic Treatment on Wool Fibre and Fabric Properties. Journal of the Textile Institute 2012; 103(6): 662-668.
  • 15. Li Q, Ding CL, Yu HX, et al. Adapting Ultrasonic Assisted Wool Scouring for Industrial Application. Textile Research Journal 2014; 84(11): 1183-1190.
  • 16. Ruszkowski K. Dyeing of Textiles with Ultrasound Application. Przegląd Włókienniczy WOS 2007; 7: 45-47.
  • 17. Shanping S. Ultrasound a Novel Dyeing Accelerant. American Dyestuff Rep. 1988; 77:15-20.
  • 18. Thakore KA. Physico-Chemical Study on Applying Ultrasonics in Textile Dyeing. American Dyestuff Rep. 1990; 79:45-47.
  • 19. Mistik S, Yükseloğlu SM. Hydrogen Peroxide Bleachinf of Cotton in Ultrasonic Energy. Ultrasonics 2005; 43:811-814.
  • 20. Canoğlu S. Gultekin BC. Yükseloğlu SM. Effect of Ultrasonic Energy in Washing of Medical Surgery Gowns. Ultrasonics 2004; 42: 1-9.
  • 21. Yükseloğlu SM, Bolat N. The Use of Conventional and Ultrasonic Energy in Dyeing of 100% Wool Woven Fabrics. Textil ve Konfeksiyon 2010; 2:162-167.
  • 22. Czaplicki Z, Matyjas-Zgondek E, Serweta W. Directions of the Finishing of Fibres and Textile Development. FIBRES & TEXTILES in Eastern Europe 2018; 26, 6(132): 133-141. DOI:10.5604/01.3001.0012.5167
  • 23. Pan Yi, Wang W, Gong K, Hurren ChJ, Li. Q. Ultrasonic Scouring as a Pretreatment of Wool and Its Application in Low-Temperature Dyeing. Textile Research Journal 2019; 89(10): 1975-1982.
  • 24. Kadam VV, Goud V, Shakyawar DB. Ultrasound Scouring of Wool and Its Effects on Fibre Quality. Indian Journal of Fibre & Textile Research 2013; 38: 410-414.
  • 25. Peila R, Grande GA, Giansetti M, Rehman S, Sicardi S, Rovero G. Washing off Intensification of Cotton and Wool Fabrics by Ultrasounds. Ultrasonics Sonochemistry 2015; 23: 324-332.
  • 26. Bahtiyari MI, Duran K. A Study on the Usability of Ultrasound In Scouring of Raw Wool. Journal of Cleaner Production 2013; 41:283-290.
  • 27. Braniša J, Jomová K, Porubská M. Scouring Test of Sheep Wool Intended for Sorption. FIBRES & TEXTILES in Eastern Europe 2019; 27, 2(134): 24-29. DOI: 10.5604/01.3001.0012.9983.
  • 28. Polsonic Company. Instrukcja obsługi myjek ultradźwiękowych http://www.polsonic.com. (2005)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7c7c858b-4d1d-45df-82a5-486a91ec85e0
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