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Toxic Waste From Textile Industries 53

[3] Seyoum B. Trade liberalization in textiles and clothing and developing coun-
tries: an analysis with special emphasis on the US import market. Int Trade J
2010;24(2):149–81.
[4] Textile Industry & Safety, https://study.com/academy/lesson/textile-industry-safety.
html.
[5] Singha K. Strategies for in automobile: strategies for using automotive textiles-
manufacturing techniques and applications. J Saf Eng 2012;1(1):7–16.
[6] Jadhav N. Evaluating the scope of technical textile in Raymond. India: NIFT; 2016.
[7] Market Size of the Global Textile and Apparel Industry: 2015 to 2020, https://sheng-
lufashion.wordpress.com/2017/06/06/market-size-of-the-global-textile-and-apparel-
industry-2015-to-2020/.
[8] Bhatia SC. Pollution control in textile industry. Boca Raton, FL: CRC Press; 2017.
[9] Parisi ML, Fatarella E, Spinelli D, Pogni R, Basosi R. Environmental impact assessment
of an eco-efficient production for coloured textiles. J Clean Prod 2015;108:514–24.
[10] Holkar CR, Jadhav AJ, Pinjari DV, Mahamuni NM, Pandit AB. A critical re-
view on textile wastewater treatments: possible approaches. J Environ Manage
2016;182:351–66.
[11] Ozturk E, Karaboyacı M, Yetis U, Yigit NO, Kitis M. Evaluation of integrated pollu-
tion prevention control in a textile fiber production and dyeing mill. J Clean Prod
2015;88:116–24.
[12] United States Environmental Protection Agency, https://www.epa.gov.
[13] Torrentó C, Palau J, Rodríguez-Fernández D, Heckel B, Meyer AH, Domenech C,
Hunkeler D. Carbon and chlorine isotope fractionation patterns associated with
different engineered chloroform transformation reactions. Environ Sci Technol
2017;51(11):6174–84.
[14] U.S. Department of Health and Human Services released the 14th Report on Carcin-
ogens. https://toxics.usgs.gov/investigations/chlorinated_solvents.html.
[15] Abbasian F, Lockington R, Mallavarapu M, Naidu R. A comprehensive review
of aliphatic hydrocarbon biodegradation by bacteria. Appl Biochem Biotechnol
2015;176(3):670–99.
[16] Ghaly AE, Ananthashankar R, Alhattab MVVR, Ramakrishnan VV. Production, char-
acterization and treatment of textile effluents: a critical review. J Chem Eng Process
Technol 2014;5(1):1–18.
[17] Carreón T, Herrick RL. Aliphatic hydrocarbons. Patty’s Toxicol 2012;https://doi.
org/10.1002/0471435139.tox049.pub2.
[18] Ning XA, Lin MQ, Shen LZ, Zhang JH, Wang JY, Wang YJ, et al. Levels, composition
profiles and risk assessment of polycyclic aromatic hydrocarbons (PAHs) in sludge from
ten textile dyeing plants. Environ Res 2014;132:112–8.
[19] Polycyclic Aromatic Hydrocarbons (PAHs)—ToxFAQs, https://www.atsdr.cdc.gov/
toxfaqs/tfacts69.pdf.
[20] Choudhury AR. Environmental impacts of the textile industry and its assessment
through life cycle assessment. In: Roadmap to sustainable textiles and clothing. Singa-
pore: Springer; 2014. p. 1–39.
[21] Tox Town, https://toxtown.nlm.nih.gov/text_version/chemicals.php?id=28.
[22] Robinson PR, Hsu CS. Petroleum and its products. In: Handbook of industrial chem-
istry and biotechnology. Cham: Springer; 2017. p. 13–106.
[23] Speight J, Exall DI. Refining used lubricating oils. Boca Raton, FL: CRC Press; 2014.
[24] Jönsson C, Posner S, Roos S. Sustainable chemicals: a model for practical substitution.
In: Detox fashion. Singapore: Springer; 2018. p. 1–36.
[25] Dutta S, Singh S. In: Health status of workers of textile and dyeing industries of Pali
Industrial Area, (Raj) India. Global public health conference. SRM University; 2014.
p. 296.

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