Identyfikatory
Warianty tytułu
Bioinnowacyjna metoda odtłuszczania tkanin bawełnianych za pomocą kwasowej i neutralnej pektynazy
Języki publikacji
Abstrakty
Using biotechnology during textile processing has been known for years due to its environmental benefits and special performance of enzymes in comparison with the conventional processing of textiles. This paper deals with the bioscouring of cotton fabric with acid and neutral pectinases in comparison with alkali scouring. Variations in technological procedures, as expressed through pad-roll and exhaustion, were also identified for the bioscouring of cotton fabrics. The varied impacts of alkali, acid, and neutral pectinases on the properties of cotton fabrics throughout the processing technology were evaluated for electrokinetic phenomena, hydrophilicity, mechanical and chemical degradation, inorganic residues, and whiteness.
Biotechnologie dla obróbki tekstyliów stosowane są z powodzeniem od lat ze względu na brak negatywnego oddziaływania na środowisko oraz korzystne oddziaływanie enzymów na właściwości obrabianych tekstyliów w stosunku do technologii konwencjonalnych. Praca dotyczy odtłuszczania bawełnianej tkaniny za pomocą kwasowej i neutralnej pektynazy w porównaniu z odtłuszczaniem zasadowym. Badano również szereg modyfikacji tej technologii. Wpływ zasadowej, kwasowej i neutralnej obróbki tych tkanin badano poprzez zjawiska elektrokinetyczne, hydrofilowość, mechaniczną i chemiczną degradację oraz biel obrobionych tkanin.
Czasopismo
Rocznik
Strony
98--103
Opis fizyczny
Bibliogr. 41 poz., rys., tab.
Twórcy
autor
- Department of Textile Chemistry & Ecology, Faculty of Textile Technology, University of Zagreb, Zagreb, Croatia
autor
- Department of Textile Chemistry & Ecology, Faculty of Textile Technology, University of Zagreb, Zagreb, Croatia
autor
- Department of Textile Chemistry & Ecology, Faculty of Textile Technology, University of Zagreb, Zagreb, Croatia
Bibliografia
- 1. Kütler H, Wulfhorst B. Chemical Fibers International 1989; 39: E133-E155.
- 2. Kozłowski R. Handbook of natural fibres: Types, properties and factors affecting breeding and cultivation. Ed. Woodhead Publishing in Association with The Textile Institute, Series in Textiles No. 118, Cambridge-Philadelphia-New Delhi, 2012.
- 3. Kozlowski R. Handbook of natural fibres: Processing and applications. Ed. Woodhead Publishing in Association with The Textile Institute, Series in Textiles No. 119, Cambridge-PhiladelphiaNew Delhi, 2012.
- 4. Gamble GR. AATCC Review 2011; 11, 5: 74-79.
- 5. Dochia M, Stanescu MD, Constantin C. Fibres & Textiles in Eastern Europe 2013; 21, 3: 22-25.
- 6. Biscaro Pedrolli D, Costa Monteiro A, Gomes E, Cano Carmona E. The Open Biotechnology Journal 2009; 3: 9-18.
- 7. Yang H, Li Q, Niu L, Zhang Y. Bioresourses 2012; 7, 3: 4171-4178.
- 8. Bach E, Schollmeyer E. Textilveredlung 1992; 27, 3: 220-225.
- 9. Jordanov I, Mangovska B. Tekstil 2001; 50, 10: 501-508.
- 10. Zulić D, Grancarić AM. Tekstil 2002; 51, 3: 128-132.
- 11. Hardin IR, Li Y. Textile Chemists and Colorists 1997; 66(8), 71-76.
- 12. Hardin IR, Li Y. Textile Chemists and Colorists 1998; 67, 9: 23-29.
- 13. Hsieh YL, Hartzell M. Textile Research Journal 1998; 68, 4: 233-241.
- 14. Grancarić AM, Pušić T, Lesić-Domšić B, Plantić Lj. Tekstil 2001; 50, 2: 55-62.
- 15. Grancarić AM, Pušić T, Tarbuk A. Journal of Natural Fibers 2006; 3, 2/3: 189-197.
- 16. Grancarić AM, Ujević D, Tarbuk A, Brlobašić Šajatović B. Tekstil 2009; 58, 11: 537-545.
- 17. Grancarić AM, Tarbuk A, Marković L. Book of Proc. 2nd SEM, Ed. University of Zagreb, Zagreb, Croatia, 2007, 221-226.
- 18. Bischof-Vukušić S, Soljačić I, Katović D. Tekstil 1994; 43, 3: 136-143.
- 19. Eriksson KE, Cavaco-Paulo A. Enzyme applications in fiber processing”. Ed. A. C. S., Michigan, 1998.
- 20. Etters JN, Annis PA. Americam Dyestuff Reporter 1998; 87, 5: 18-23.
- 21. Peran J, Pušić T. Tekstil 2013; 62, 7-8: 329-337.
- 22. Aehle W., Enzymes in Industry: Production and Applications. 3rd ed, Wile-VCH, Verlag GmbH&Co. KGaA, Weinheim, 2007.
- 23. Forte Tavčer P. Waste Water - Treatment and Reutilization. Ed. FS. García Einschlag, Chapter 20, In Tech, 2011.
- 24. Nierstrasz VA, Warmoeskerken MMCG. Textile Processsing with Enzymes. (Eds. Cavaco-Paulo A, Gűbitz G. Ed. Woodhead Publishing Ltd, Cambridge, England, 2003: 129-131.
- 25. Saravanan D, Sivasaravanan S, Sudharsan Prabhu M, et al. J. Appl. Polym. Sci. 2012; 123: 2445-2451.
- 26. Eren HA, Anis P, Davulcu A. Textile Res. J., 2009; 79, 12: 1091-1098.
- 27. Forte-Tavčer P. Biocatalysis and Biotransformation 2012; 30, 2: 20-26.
- 28. Yachmenev VG, Bertoniere NR, Blanchard EJ.Journal of Chemical Technology and Biotechnology 2002; 77, 5: 559-567.
- 29. Etters JN. TCC & ADR 1999; 1, 3: 33-36.
- 30. Preša P, Forte Tavčer P. Tekstilec 2007; 50, 1-3: 16-34.
- 31. Rajendran R, Sundaram SK, Radhai R, Rajapriya P, Pak P. J. Biol. Sci. 2011; 14, 9: 519-525.
- 32. Tzanov T, Calafell M, Guebitz G, Cavaco-Paulo A. Enzyme Microb. Technol. 2001; 29, 6: 357-362.
- 33. Jordanov I, Mangovska B, Forte Tavčer P. Tekstil 2010; 59, 10: 439-446.
- 34. Calafell M, Garriga P. Enzyme and Microbial Technology 2004; 34, 3-4: 326-331.
- 35. Grancarić AM, Tarbuk A, Pušić T. Coloration Technology 2005; 121, 4: 221-227.
- 36. Grancarić AM, Chibowski E, Tarbuk A. Tekstil 2008; 57, 1-2: 29-39.
- 37. Grancaric AM, Pusic T, Soljacic I, Biscan J. Polimeri 2002; 23, 6: 121-128.
- 38. Luxbacher T, Bukšek H, Petrinić I, Pušić T. Tekstil 2009; 58, 8: 401-409.
- 39. Stana-Kleinschek K, Ribitsch V. Colloids and Surfaces, A: Physicochemical and Engineering Aspects 1998; 140: 127-138.
- 40. Pusic T, Grancaric AM, Soljacic I, Ribitsch V. Journal of the Society of Dyers and Colourists 1999; 115, 4: 121-124.
- 41. Grancarić AM, Ristić N, Tarbuk A, Ristić I. Electrokinetic Phenomena of Cationised Cotton and its Dyeability with Reactive Dyes. Fibres & Textiles in Eastern Europe 2013; 21, 6, 102: 106-110.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-96cf604e-4f1b-4c34-88c4-40d9c6f61858