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Extraction and optimization of Mucuna pruriens for dyeing of leather

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Języki publikacji
EN
Abstrakty
EN
The present study reports on the leaching of natural pigment from Mucuna pruriens for dyeing of chrome tanned leather samples. The experiments were performed at temperature (30-70°C), time (30-90 min), feed to solvent ratio (1:3-1:7) and particle size (0.25-0.75 mm) using ethanol as solvent. The influence of process variables on percentage yield has been studied and the conditions were optimized using Box-Behnken design. The optimized conditions for intensified extraction was found to occur at a temperature of 60°C, extraction time of 1 hr, for a feed to solvent ratio of 1:5 and 0.75 mm particle size. The % yield under optimized conditions was found to be 47%. The extraction results were found to agree well with the statistical model (R2 = 0.9740). The colouring ability of extracted dye has been tested on wet blue goat leathers. The dyed leather exhibited a better colour value, strength and fastness properties as inferred from reflectance and visual assessment tests.
Rocznik
Strony
57--63
Opis fizyczny
Bibliogr. 19 poz., rys., tab., zdj.
Twórcy
autor
  • Sathyabama University, Department of Chemical Engineering, Chennai, Tamil Nadu- 600119, India
Bibliografia
  • 1. Neelwarne, B. & Halagur, S.B., Red Beet: An Overview, in Neelwarne, Bhagyalakshmi (Ed.), Food and Pharmaceutical Applications, pp 1-43, Springer New York Heidelberg Dordrecht London, 2012.
  • 2. Khan, A.A., Iqbal, N., Adeel, S., Azeem, M., Batool, F. & Bhatti, I.A. (2014). Extraction of natural dye from red calico leaves: Gamma ray assisted improvements in colour strength and fastness properties. Dyes Pigments.103, 50-54. DOI: 10.1016/j. dyepig.2013.11.024.
  • 3. Leitner, P., Fitz-Binder, C., Mahmud-Ali, A. & Bechtold, T. (2012). Production of a concentrated natural dye from Canadian Goldenrod (Solidago canadensis) extracts. Dyes Pigments. 93 (1-3), 1416-1421. DOI: 10.1016/j.dyepig.2011.10.008
  • 4. Velmurugan, P., Kamala-KannanS., Balachandar, V., Lakshmanaperumalsamy, L., Chan Chae, J. & Taek Oh, B. (2010). Natural pigment extraction from five filamentous fungi for industrial applications and dyeing of leather. CarbohydPolym. 79 (2), 262-268. DOI: 10.1016/j.carbpol.2009.07.058.
  • 5. Rai, H.S., Bhattacharyya, M.S., Singh, J., Bansal, T.K., Vats, P. & Banerjee, U.C. (2005).Removal of dyes from the effluent of textile and dyestuff manufacturing industry: a review of emerging techniques with reference to biological treatment. Crit. Rev. Environ. Sci. Technol. 35 (3), 219-238. DOI: 10.1080/10643380590917932.
  • 6. Ahlstrom, L., Eskilsson, C.S. & Björklund, E. (2005). Determination of banned azodyes in consumer goods. Trends Anal. Chem. 24 (1), 49-56. DOI: 10.1016/j.trac.2004.09.004.
  • 7. Alves de Lima, R.O., Paula, B.A., Maria, F.S.D., Maria, R.C., Danielle, D.P.O. & Gisela, D.R.U. (2007). Mutagenic and carcinogenic potential of a textile azo dye processing effluent that impacts a drinking water source. Mutat. Res. 626, 53-60. DOI: 10.1016/j.mrgentox.2006.08.002.
  • 8. Osman, M.Y., Sharaf, I.A., Osman, H.M., El-Khouly, Z.A. & Ahmed, E.I. (2004). Synthetic organic food colouring agents and their degraded products: effects on human and rat cholinesterases. Br. J. Biomed. Sci. 61(3), 128-32. PMID: 15462257.
  • 9. Chatterjee, S., Chatterjee, S., Bishnu, P., Chatterjee & Guha, A.K. (2007).Adsorptive removal of congo red, a carcinogenic textile dye by chitosan hydrobeads: Binding mechanism, equilibrium and kinetics. Physicochem. Eng. Aspects. 299 (1-3), 146-152. DOI: 10.1016/j.colsurfa.2006.11.036.
  • 10. Sivakumar, V., Anna, J.L., Vijayeeswarri, J. & Swaminathan, G. ultrasonsonochem. 16(6): 782-9. DOI: 10.1016/j. ultsonch.2009.03.009.
  • 11. Myers, R.H., Montgomery. D.C. & Anderson-Cook, C.M. (2009). Response surface methodology: Process and product optimization using designed experiments (Third Ed.), John Wiley & Sons, New Jersey.
  • 12. Rekaby, M., Salem, A.A. & Nassar, S.H. (2009, August). Eco-friendly printing of natural fabrics using natural dyes from alkanet and rhubarb. J. Text. Inst. 100(6), 486-495. Retrieved October 25th, 2007, from the Journal of the Textile Institute on the World Wide Web: http://www.tandfonline.com/ DOI: 10.1080/00405000801962177.
  • 13. Bezerra, M.A., Santelli, R.E., Oliveira, E.P., Villar, L.S. & Escaleira, L.A. (2008). Response surface methodology (RSM) as a tool for optimization in analytical chemistry. Talanta. 76 (5), 965-977. DOI: 10.1016/j.talanta.2008.05.019.
  • 14. Ferreira, S.L.C., Bruns, R.E. & Ferreira, H.S. (2007). Box-Behnken design: An alternative for the optimization of analytical methods. Anal. Chim. Acta. 597 (2), 179-186. DOI: 10.1016/j.aca.2007.07.011.
  • 15. Kamel, M.M., El-Zawahry, M.M., Ahmed, N.S.E. & Abdelghaffar, F. (2011). Ultrasonic dyeing of cationized cotton fabric with natural dye. Part 2: Cationization of cotton using Quat 188. Ultrason. Sonochem. 34(3), 1410-1417. DOI: 10.1016/j. indcrop.2011.04.011.
  • 16. Balasubramanian, A. & Venkatesan, S. (2012). Optimization of Removal of Phenol from Aqueous Solution by Ionic Liquid-Based Emulsion Liquid Membrane Using Response Surface Methodology. Clean - Soil, Air, Water 42 (1), 64-70. DOI: 10.1002/clen.201200168.
  • 17. Segurola, J., Allen, N.S., Edge, M., Mahon, A.M. (1999). Design of eutectic photoinitiator blends for UV/visible curable acrylated printing inks and coatings. Prog. Org. Coat. 37(1-2), 23-37. DOI: 10.1016/S0300-9440(99)00052-1.
  • 18. Maran, J.P. & Manikandan, S. Response surface modeling and optimization of process parameters for aqueous extraction of pigments from prickly pear (Opuntia ficus-indica) fruit (2012). Dyes Pigments. 95(3), 465-472. DOI: 10.1016/j. dyepig.2012.06.007.
  • 19. Beg, Q.K., Sahai, V. & Gupta, R. (2003). Statistica l media optimization and alkaline protease production from Bacillus mojavensis in a bioreactor. ProcessBiochem. 39 (2), 203-209. DOI: 10.1016/S0032-9592(03)00064-5.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3075fc75-d918-471f-876f-f138899a253d
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