DOI: https://doi.org/10.14710/presipitasi.v18i1.56-63

Textile Wastewater Post Treatment Using Ozonation

*Noviani Ima Wantoputri  -  Universitas Islam Indonesia, Indonesia
Qomarudin Helmy  -  Institut Teknologi Bandung, Indonesia
Suprihanto Notodarmojo  -  Institut Teknologi Bandung, Indonesia

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Abstract

The textile industry is one of the industries that discharge an enormous quantity of highly colored wastewater because of the large amount of water used in the process. Textile wastewater is the potential to polluting the environment due to the high color contained in it. One of the problems in processing textile wastewater with conventional treatment methods is the ineffectiveness of color removal. A post-treatment is needed for treated wastewater to remove the color. One of the methods is by using the ozonation method. In this preliminary study, the decolorization of artificial textile wastewater containing azo dye reactive-black 5 (RB5) from secondary treatment was investigated in a batch system. Artificial treated textile wastewater from secondary biological treatment was made using 5,26 mg/L azo dye RB5 in 16 L volume of the reactor. The preliminary batch study showed that the optimum color removal achieved in 24.66 mg/minute ozone dose in a batch system with 20,89 mg/minute ozone consumption. Within 5 minutes of ozonation, color removal achieved was 100%, and COD removal achieved was 75%.

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Keywords: color removal, ozonation, post-treatment, reactive black 5, textile wastewater

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Section: Original Research Article
Language : EN
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  1. Basak, S., Ozgun, D., Ozdemir Sebnem., and Cinar, O. 2015. The inhibition effect of ozonation in textile wastewater. World Journal of Environmental Research, 5:122-129
  2. Benkhaya, S., Harfi, S. El., and Harfi, A.El. 2018. Classifications , properties and applications of textile dyes : A review. Applied Journal of Environmental Engineering Science,3:311-320
  3. Bilinska, L., Gmurek, M., & Ledakowicz, S. 2017. Textile wastewater treatment by AOPs for brine reuse. Process Safety and Environmental Protection, 10:420 - 228
  4. Colindres, P., Yee-Madeira, H., and Reguera, E. 2010. Removal of Reactive Black 5 from aqueous solution by ozone for water reuse in textile dyeing processes. Desalination, 258: 154–158
  5. De Souza, S. M. de A. G. U., Bonilla, K. A. S., and de Souza, A. A. U. 2010. Removal of COD and color from hydrolyzed textile azo dye by combined ozonation and biological treatment. Journal of Hazardous Materials, 179 (1-3): 35–42
  6. Holkar, C. R., Jadhav, A. J., Pinjari, D. V., Mahamuni, N. M., and Pandit, A. B. 2016. A critical review on textile wastewater treatments: Possible approaches. Journal of Environmental Management, 182: 351–366
  7. Moertinah, S. 2008. Peluang-Peluang Produksi Bersih pada Industri Tekstil Finishing Bleaching PT. Damaitex Semarang. Tesis, Universitas Diponegoro
  8. Mohamed El Bouraie and Walaa Salah El Din. 2016. Biodegradation of Reactive Black 5 by Aeromonas hydrophila strain isolated from dye-contaminated textile wastewater. Sustainable Environment Research, 26:209-216
  9. Mohapatra, D.P., Brar, S.K., Tyagi, R.D., Picard, P., and Surampalli, R.Y. 2014. Analysis and advanced oxidation treatment of a persistent pharmaceutical compound in wastewater and wastewater sludge-carbamazepine. Science of the Total Environment, 470-471: 58-75
  10. Panswad, T., Iamsamer, K., and Anotai, J. 2001. Decolorization of azo-reactive dye by polyphosphate- and glycogen-accumulating organisms in an anaerobic–aerobic sequencing batch reactor. Bioresource Technology, 76:151 - 159
  11. Qiu, M., Shou, J., Ren, P., and Jiang, K. 2014. A comparative study of the azo dye reactive black 5 degradation by U.V./TiO2and photo-fenton processes. J. Chem. Pharm. Res, 6 (7):2046–2051
  12. Sarkar, S., Banerjee, A., Halder, U., Halder, U., Biswas, R., and Bandopadhay, R. 2017. Degradation of Synthetic Azo Dyes of Textile Industry: a Sustainable Approach Using Microbial Enzymes. Water Conservation Science and Engineering, 2:121–131
  13. Shimizu, A., Takuma, Y., Kato, S., and Yamasaki, A., 2013. Degradation kinetics of azo dye by ozonation in water. J. Fac.Sci. Tech, Seikei University, 50:1–4
  14. Somensi, C.A., Simionatto, E.L., Bertoli, S.L., Wisniewski Jr, A., and Radetski, C.M. 2010. Use of ozone in a pilot-scale plant for textile wastewater pretreatment: Physico-chemical efficiency, degradation by-products identification and environmental toxicity of treated wastewater. Journal of Hazardous Materials, 175:235 - 240
  15. Suryawan, I.W.K., Helmy, Q., and Notodarmojo, S., 2018. Textile wastewater treatment: Colour and COD removal of reactive black-5 by ozonation. IOP Conf. Ser. Earth Environ. Sci. 106
  16. Tabrizi, M.T.F. 2013. Decolouration of Reactive Dyes with Ozone in a Semi Batch and a Continuous Stirred Tank Reactor. Disertasi, Universitas Witwatersrand, Johannesburg
  17. Tehrani-Bagha, A.R., Mahmoodi, N.M., and Menger, F.M., 2010. Degradation of a persistent organic dye from colored textile wastewater by ozonation. Desalination, 260: 34–38
  18. Venkatesh, S., Venkatesh, K., and Quaff, A.R. 2017. Dye decomposition by combined ozonation and anaerobic treatment: Cost effective technology. Journal of Applied Research and Technology, 15 (4) : 340 - 345
  19. Von Gunten, U. 2003. Ozonation of drinking water, Part I: Oxidation kinetics and product formation. Water Resource, 37 (7) : 1443 – 1467
  20. Zheng, Q., Dai, Y., and Han, X. 2016. Decolorization of azo dye C.I. Reactive Black 5 by ozonation in aqueous solution: influencing factors, degradation products, reaction pathway and toxicity assessment. Water Science & Technology, 73(7)

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