Aggoun, A. and Benmaamar, Z. (2019). Effect of a mixture of cadmium and lead on nitrate and phosphate removal by the duckweed Lemna gibba. Ann. Bot., 9, 53–62.
Castro, M., Nogueira, V., Lopes, I., Vieira, M.N., Rocha-Santos, T. and Pereira, R. (2018). Treatment of a textile effluent by adsorption with cork granules and titanium dioxide nanomaterial. J Environ Sci Health A Tox Hazard Subst Environ Eng., 53(6):524-536.
Chhikara, S., Rana, L. and Poonam (2013). Physico-chemical Characterization of Textile Mill Effluent: A Case Study of Haryana, India. Environ. We Int. J. Sci. Tech., 8, 19-23.
Cristina, L. L., Jaime, M.-P., Juan, C. L.-D., María, V. M.-T., María, M. M. and Jose M. P. (2016). Combined treatment of textile wastewater by coagulation–flocculation and advanced oxidation processes. Desal. Water Treat., 57, 13987-13994.
Daneshvar, N., Salari, D. and Khataee, A. R. (2003). Photocatalytic degradation of azo dye acid red 14 in water: investigation of the effect of operational parameters, J. Photochem. Photobiol. Chem., 157: 111–116.
Dasgupta, J., Jaya, S., Sudip, C., Stefano, C. and Enrico, D. (2015). Remediation of textile effluents by membrane based treatment techniques: A state of the art review. J Environ Manage., 147, 55-72.
Deepali and Gangwar, K. K. (2010). Metals concentration in textile and tannery effluents, associated Soils and Ground Water. New York Sci. J., 3 (4), 82-89.
DoE (2008). Guide for Assessment of Effluent Treatment Plants, 1st edition. Department of Environment, Ministry of Environment and Forest, Bangladesh. Available online at: http://old.doe.gov.bd/publication_images/15_etp_assessment_guide.pdf
Dotto, J., ReginaFagundes-Klen, M., TeresinhaVeit, M., MorenoPalácio, S. and Bergamasco, R. (2019). Performance of different coagulants in the coagulation/flocculation process of textile wastewater. J. Cleaner Prod., 208, 656-665.
Favero, B. M., Favero, A. C., Taffarel, S. R. and Souza, F. S. (2018). Evaluation of the efficiency of coagulation/flocculation and fenton process in reduction of colour, turbidity and COD of a textile effluent. Environ Technol., Environ Technol.,41(12), 1580-1589.
Gilpavas, E., Dobrosz-Gomez, I. and Gomez-García, M. A. (2017). Coagulation-flocculation sequential with Fenton or Photo-Fenton processes as an alternative for the industrial textile wastewater treatment. J. Environ. Manage., 191, 189-197.
Pollution, 7(1): 43-54, Winter 2021
53
Gong, X., Huang, D., Liu, Y., Zeng, G., Wang, R., Wei, J. and Zhang, C. (2018). Pyrolysis and reutilization of plant residues after phytoremediation of heavy metals contaminated sediments: for heavy metals stabilization and dye adsorption. Bioresourc. Technol., 253:64–71.
Hasan, S. H., Talat, M. and Rai, S. (2007). Sorption of cadmium and zinc from aqueous solutions by water hyacinth (Eichchornia crassipes), Bioresourc. Technol., 98, 918–928.
Hasan, K. F., Mia, M. S., Rahman, M. M., Ullah, A. A. and Ullah, M. S. 2016. Role of Textile and clothing industries in the growth and development of trade & business strategies of Bangladesh in the global economy. Int. J.Text. Sci., 5, 39-48
Hossain, L., Sarker, S. K. and Khan, M.S. 2018. Evaluation of present and future wastewater impacts of textile dyeing industries in Bangladesh. Environ. Dev., 26, 23-33
Ilhan, F., Ulucan-Altuntas, K., Dogan, C. and Kurt, u. (2019). Treatability of raw textile wastewater using Fenton process and its comparison with chemical coagulation. Desaline. And Water Treat., 162, 142–148.
Islam, M. M., Khan, A. M. and Islam, M. M. 2013. Textile industries in Bangladesh and challenges of growth. Res. J.Engin. Sci, 2278, 9472
Imtiazuddin, S. M., Mumtaz, M. and Ahmed, T. (2014). Physico-Chemical Analysis and Heavy Metals Concentration in Textile Effluent in Karachi Region of Pakistan. Global J. Environ. Sci. Technol., 2(5), 071-074.
Kabir, M. M., Fakhruddin, A. N. M., Chowdhury, M. A. Z., Fardous, Z. and Islam, R. (2017). Characterization of tannery effluents of Hazaribagh area , Dhaka , Bangladesh. Pollution, 3, 395-406.
Kabir, M. M., Fakhruddin, A. N. M., Chowdhury, M. A. Z., Pramanik, M. K. and Fardous, Z. (2018). Isolation and characterization of chromium(VI)-reducing bacteria from tannery effluents and solid wastes. World J. Microbiol. Biotechnol., 34, 126
Kabir, M. M., Sultana, F., Rahman, M. M. and Uddin, M. K. (2020). Chromium (VI) removal efficacy from aqueous solution by modified tea wastes-polyvinyl alcohol (TW-PVA) composite adsorbent. Desal. Water Treat., 174, 311–323.
Kambole, M.S. (2003). Managing the Water Quality of the Kafue River, In: Physics and Chemistry of the Earth., 28: 1105-1109.
Kay, S. H., Haller, W. T. and Garrard, L. A. (1984). Effects of heavy metals on water hyacinths (Eichhornia crassipes (Mart.) Solms), Aquat. Toxicol., 5 (2), 117–128.
Kazi, T. G., Arain, M. B., Jamali, M. K., Jalbani, N., Afridi, H. I., Sarfraz, R. A., Baig, J. A. and Shah, A.Q. (2009). Assessment of water quality of polluted lake using multivariate statistical techniques: A case study. Ecotox. Environ. Safe., 72 (20), 301-309.
Kumar, V., Singh, J., Saini, A. and Kumar, P. (2019). Phytoremediation of copper, iron and mercury from aqueous solution by water lettuce (Pistia stratiotes). Environ. Sustain., 2(1):55–65.
Liao, S.W. and Chang W.L. (2004). Heavy metal phytoremediation by water hyacinth at constructed wetlands in Taiwan, J. Aqua Plant Manage., 42, 60–68.
Mahmood, Q., Zheng, P., Islam, E., Hayat, Y., Hassan, M.J., Jilani, G. and Jin, R.C. (2005). Lab scale studies on water hyacinth (Eichhornia crassipes Marts. Solms) for biotreatment of textile wastewater. Caspian J. Environ. Sci., 3 (2), 83–88.
Mohabansi, N. P., Tekade, P. V. and Bawankar, S.V. (2011). Physico-chemical Parameters of Textile Mill Effluent, Hinganghat, Dist. Wardha (M.S.). Curr. World Environ., 6 (1), 165-168.
Oliveira, C. S. and Airoldi, C. (2014). Pyridine derivative covalently bonded on chitosan pendant chains for textile dye removal. Carbohydr. Polym., 102, 38–46.
Oturan, M. A. and Aaron, J-J. (2014). Advanced oxidation processes in water/wastewater treatment principles and applications. A review. Crit Rev Environ Sci Technol., 44, 2577–2641.
Qureshi, A. S., Hussain, M. I., Ismail, S. and Khan, Q. M. (2016). Evaluating heavy metal accumulation and potential health risks in vegetables irrigated with treated wastewater. Chemosphere 163, 54-61.
Rezania, S., Ponraj, M., Talaiekhozani, A., Mohamad, S. E., Din, M. F. M, Taib, S. M. and Sairan, F. M. (2015). Perspectives of phytoremediation using water hyacinth for removal of heavy metals, organic and inorganic pollutants in wastewater. J. Environ. Manage. 163, 125–133.
Roy, R., Fakhruddin, A. N. M., Khatun, R., Islam, M. S., Ahsan, M. A. and Neger, A. J. M. T. (2010). Characterization of textile industrial effluents and its effects on aquatic macrophytes and Algae. Bangladesh J. Sci. Ind. Res., 45(1), 79-84.
Sabur, M.A., Khan A.A. and Safiullah S. (2012). Treatment of Textile Wastewater by Coagulation Precipitation Method. J. Sci. Res., 4 (3), 623-633.
Tasneem, A., et al.
Pollution is licensed under a "Creative Commons Attribution 4.0 International (CC-BY 4.0)"
54
Sapkal, R. T., Shinde, S. S., Mahadik, M. A., Mohite, V. S., Waghmode, T. R., Govindwar, S. P., Rajpure, K. Y. and Bhosale, C. H. (2012). Photoelectrocatalytic decolorization and degradation of textile effluent using ZnO thin films. J. Photochem. Photobiol B., 114:102-107.
Seval, K. A. S., As¸kın, B., Go¨khan, E. U. and Taner, Y. (2006). Colour and COD removal from textile effluent by coagulation and advanced oxidation processes. Color. Technol., 122, 102–109. Sözen, S., Olmez-Hanci, T. and Hooshmand, M. (2020). Fenton oxidation for effective removal of color and organic matter from denim cotton wastewater without biological treatment. Environ Chem Lett., 18, 207–213. Tarkwa, J. B., Oturan, N., Acayanka, E., Laminsi, S. and Oturan, M. A. (2019). Photo-fenton oxidation of Orange G azo dye: process optimization and mineralization mechanism. Environ. Chem. Lett., 17(1) 473–479.
Tkaczyk, A., Mitrowska, K. and Posyniak, A. (2020). Synthetic organic dyes as contaminants of the aquatic environment and their implications for ecosystems: A review. Sci. total Environ.., 717, 137222.
Zeiner, M., Rezic, I. and Steffan, I. (2007). Analytical Methods for the Determination of Heavy Metals in the Textile Industry. Kem. Ind., 56 (11), 587-59.