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Sustainable Practices in the Textile Industry. Группа авторовЧитать онлайн книгу.

Sustainable Practices in the Textile Industry - Группа авторов


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Singam, R.T., Marsi, N., Mamat, H., Rus, A.Z.M., Nasir, S.H., Shaari, M.F., Physical properties of natural dyes based on Lawsonia inermis, Azadiractha indica and Curcuma longa coated with superhydrophobic coating for textile applications. Int. J. Adv. Res. Eng. Technol., 11, 301, 2020.

      85. Pan, N.C., Chattopadhay, S.N., Day, A., Dyeing of jute with natural dyes. Indian J. Fibre Text. Res., 28, 339, 2003.

      86. Mathur, J.P., Mehta, A., Karnawat, R., & Bhandari, C.S.., Use of neem bark as wool colourant Optimum conditions of wool dyeing. Indian J. Fibre Text. Res., 28, 94-99, 2003.

      87. Bechtold, T. and Mahmud-Ali, A., Mussak, Reuse of ash-tree (Fraxinus excelsior L.) bark as natural dyes for textile dyeing: Process conditions and process stability. Color. Technol., 123, 271, 2007.

      88. Jayalakshmi, I. and Amsamani, S., Dyeing wool using biomordants. Colourage, 55, 102, 2008.

      89. Mohammad, F., Yusuf, M., Shahid, M., Khan, S.A., Khan, M.I., Shahidul, I., Khan, M.A., Dyeing of wool with the extract of henna leaves using mixed metal mordants. Colourage, 59, 51, 2012.

      90. Uddin, M.G., Extraction of eco-friendly natural dyes from mango leaves and their application on silk fabric. Text Cloth Sustain, 1, 7, 2015.

      91. Swamy, V.N., Assessment of calorimetric, antibacterial and fastness properties of silk fabric dyed with Casuarina equisetifolia L. leaf extract. Indian J. Tradit. Knowl., 16, 714, 2017.

      92. Banerjee, A.N., Kotnala, O.P., Maulik, S.R., Dyeing of eri silk with natural dyes in presence of natural mordants. Indian J. Tradit. Knowl., 17, 396, 2018.

      93. Shukla, P., Upreti, D.K., Nayaka, S., Tiwari, P., Natural Dyes from Himalayas Lichens. Indian J. Tradit. Knowl., 13, 195, 2014.

      94. Khan, M.A., Khan, M., Srivastava, P.K., Mohammad, F., Extraction of natural dyes from myrobalan, gallnut and pomegranate, and their application on wool. Colourage, 52, 53, 2005.

      96. Miah, M.R., Zakaria, Hossain, M.A., Dipto, A.I., Telegin, F.Y., Quan, H., Ecodyeing of nylon fabric using natural dyes extracted from onion outer shells: assessment of the effect of different mordant on color and fastness properties. Int. J. Sci. Eng. Res., 7, 1043, 2016.

      97. Purwar, S., Application of natural dye on synthetic fabrics: A review. Int. J. Home Sci., 2, 283, 2016.

      98. Elnagar, K., Elmaaty, T.A., Raouf, S., Dyeing of polyester and polyamide synthetic fabrics with natural dyes using ecofriendly technique. Journal of Textiles, 2014, 8, 2014.

      99. Shahin, M.F., Ahmed, R.M., Marie, M.M., Optimizing the dyeing process of alkali-treated polyester fabric with dolu natural dye. Int. J. Eng. Res. Appl., 4, 35, 2014.

      100. Guizhen, K., Dyeing properties on natural dye extracted from Rhizoma coptidis on acrylic fiber. Indian J. Fiber Text. Res., 39, 102, 2014.

      101. Pruthi, N., Chawla, G.S., Yadav, S., Dyeing of silk with Barberry bark dye using mordant combination. Nat. Prod. Radiance, 7, 40–44, 2008.

      102. Iqbal, S. and Ansari, T.N., Natural dyes: Their sources and ecofriendly use as textile materials. J. Environ. Res. Dev., 8, 683, 2014.

      103. Shabbir, M., Islam, S.U., Bukhari, M.N., Application of Terminalia chebula natural dye on wool fiber–Evaluation of color and fastness properties. Text. Cloth. Sustain., 2, 1, 2017.

      104. Susmitha, S., Vidyamol, K.K., Ranganayaki, P., Vijayaragavan, R., Phytochemical extraction and antimicrobial properties of Azadirachta indica (Neem). Global J. Pharmacol., 7, 316, 2013.

      105. Feng, X.X., Zhang, L.L., Chen, J.Y., Zhang, J.C., New insights into solar UV-protective properties of natural dye. J. Cleaner Prod., 15, 366, 2007.

      106. Grifoni, D., Bacci, L., Zipoli, G., The role of natural dyes in the UV protection of fabrics made of vegetable fibres. Dyes Pigm., 91, 279, 2011.

      107. Mongkholrattansit, R., Krystufek, J., Wiener, J., Vikova, M., Dyeing, fastness and UV protection properties of silk and wool fabrics dyed with eucalyptus leaf extract by the exhaustion process. Fibres Text., 86, 94, 2011.

      108. Desore, A. and Narula, S.A., An overview on corporate response towards sustainability issues in textile industry. Environ. Dev. Sustainability, 20, 1439, 2018.

      109. Bhatia, S. C., Pollution control in textile industry. WPI Publishing. New Delhi, 2017.

      110. Hossain, M.S., Das, S.C., Islam, J.M., Al Mamun, M.A., Khan, M.A., Reuse of textile mill ETP sludge in environmental friendly bricks–effect of gamma radiation. Radiat. Phys. Chem., 151, 77, 2018.

      111. Muthu S.S., Introduction. In: Sustainability in the Textile Industry, Muthu S. (Ed.). pp. 1–7, Textile Science and Clothing Technology. Springer, Singapore, 2017.

      113. Vigneshpriya, D. and Shanthi, E., Physicochemical Characterization of Textile Wastewater. Int. J. Innovative Res. Dev., 4, 48, 2015.

      114. Mahapatra, N.N., Textile dyes, p. 1–7, CRC Press, Woodhead Publishing India Pvt, Boca Raton, 2016.

      115. Hassan, M.M. and Carr, C.M., A critical review on recent advancements of the removal of reactive dyes from dye house effluent by ion-exchange adsorbents. Chemosphere, 209, 201, 2018.

      116. Shamey, R. and Zhao, X., Modelling, simulation and control of the dyeing process, p. 31–53, Elsevier, Amsterdam, 2014.

      117. Imran, M., Crowley, D.E., Khalid, A., Hussain, S., Mumtaz, M.W., Arshad, M., Microbial biotechnology for decolorization of textile wastewaters. Rev. Environ. Sci. Biotechnol., 14, 73, 2015.

      118. Aquino, J.M., Rocha-Filho, R.C., Ruotolo, L.A., Bocchi, N., Biaggio, S.R., Electrochemical degradation of a real textile wastewater using β-PbO2 and DSA® anodes. Chem. Eng. J., 25, 138, 2014.

      119. Khatri, J., Nidheesh, P.V., Singh, T.A., Kumar, M.S., Advanced oxidation processes based on zero-valent aluminium for treating textile wastewater. Chem. Eng. J., 348, 67, 2018.

      120. Sandhya, S., Biodegradation of azo-dyes under anaerobic condition: Role of azoreductase, in: Biodegradation of Azo-dyes, H.A. Erkurt (Ed.), p. 39–57, Springer, Berlin, 2010.

      121. Rehman, K., Shahzad, T., Sahar, A., Hussain, S., Mahmood, F., Siddique, M.H., Siddique, M.A., Rashid, M.I., Effect of reactive black 5 azo-dye on soil processes related to C and N cycling. Peer J., 6, e4802, 2018.

      122. Sharma, B., Dangi, A.K., Shukla, P., Contemporary enzyme based technologies for bioremediation: A review. J. Environ. Manage., 210, 10, 2018.

      123. Khan, S. and Malik, A., Toxicity evaluation of textile effluents and role of native soil bacterium in biodegradation of a textile dye. Environ. Sci. Pollut. Res. Int., 25, 4446, 2018.

      124. Clark, M., (Ed.), Handbook of textile and industrial dyeing: Principles, processes and types of dyes. Woodhead Publishing, Philadelphia, 2011.

      125. Hunger, K., Industrial Dyes: Chemistry, Properties and Applications, Willey-VCH, Weinheim, 2003.

      126. Thakur, I.S., Environmental Biotechnology: Basic Concepts and Applications, I.K. International Pvt, New Delhi, 2006.

      127. Tiwari, S., Tripathi, A., Gaur, R., Bioremediation of plant refuges and xenobiotics, in: Principles and Applications of Environmental Biotechnology for a Sustainable Future, R.L. Singh


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