A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques

Presently, Pakistan is the 8th largest exporter of textile products in the world andthis sector is considered the backbone of Pakistan’s economy. Due to intensifieduse of dyes, chemicals, and water, the textile sector is also listed as the highestcontributor to environmental pollution. Therefore, to...

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Autores principales: Tooba Naveed, Niaz Ahmed, Shahid Bhutto, Nazeer Tunyo, Durdana Hashmi
Formato: article
Lenguaje:EN
Publicado: Razi University 2021
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Acceso en línea:https://doaj.org/article/f7b2f9c496bf43baafdaa7554a97aa30
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spelling oai:doaj.org-article:f7b2f9c496bf43baafdaa7554a97aa302021-11-20T12:24:01ZA sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques2476-628310.22126/arww.2021.6272.1203https://doaj.org/article/f7b2f9c496bf43baafdaa7554a97aa302021-06-01T00:00:00Zhttps://arww.razi.ac.ir/article_1814_8244d968fd7a68f54c9c8ea454467dbb.pdfhttps://doaj.org/toc/2476-6283Presently, Pakistan is the 8th largest exporter of textile products in the world andthis sector is considered the backbone of Pakistan’s economy. Due to intensifieduse of dyes, chemicals, and water, the textile sector is also listed as the highestcontributor to environmental pollution. Therefore, to approach the demand of newglobal trend towards sustainability, the textile industry along with others need tofocus on resource recovery and reuse. The present study was therefore plannedfor the treatment of textile effluent composed from 04 textile mill samples. Thetextile effluent is treated by employing coagulation, ozone oxidation, andultrafiltration techniques. All the samples exceeded the standard limits as given inSindh Environmental Quality Standard (SEQS 2016). Each individual treatmentprovided promising results in terms of reduction in pollution load. Overall findingsrevealed a remarkable decrease in total suspended solid (TSS) (96 %), totaldissolved solid (TDS) (78 %), chemical oxygen demand (COD) (93 %), BiologicalOxygen Demand-BOD (93 %), oil & grease (96 %) and heavy metals (HM) (98 %).It is suggested that combined techniques are the best option for textile effluenttreatment.Tooba NaveedNiaz AhmedShahid BhuttoNazeer TunyoDurdana HashmiRazi Universityarticletextile effluentscoagulationozone oxidationultrafiltration, reuseEnvironmental technology. Sanitary engineeringTD1-1066ENJournal of Applied Research in Water and Wastewater , Vol 8, Iss 1, Pp 66-70 (2021)
institution DOAJ
collection DOAJ
language EN
topic textile effluents
coagulation
ozone oxidation
ultrafiltration, reuse
Environmental technology. Sanitary engineering
TD1-1066
spellingShingle textile effluents
coagulation
ozone oxidation
ultrafiltration, reuse
Environmental technology. Sanitary engineering
TD1-1066
Tooba Naveed
Niaz Ahmed
Shahid Bhutto
Nazeer Tunyo
Durdana Hashmi
A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
description Presently, Pakistan is the 8th largest exporter of textile products in the world andthis sector is considered the backbone of Pakistan’s economy. Due to intensifieduse of dyes, chemicals, and water, the textile sector is also listed as the highestcontributor to environmental pollution. Therefore, to approach the demand of newglobal trend towards sustainability, the textile industry along with others need tofocus on resource recovery and reuse. The present study was therefore plannedfor the treatment of textile effluent composed from 04 textile mill samples. Thetextile effluent is treated by employing coagulation, ozone oxidation, andultrafiltration techniques. All the samples exceeded the standard limits as given inSindh Environmental Quality Standard (SEQS 2016). Each individual treatmentprovided promising results in terms of reduction in pollution load. Overall findingsrevealed a remarkable decrease in total suspended solid (TSS) (96 %), totaldissolved solid (TDS) (78 %), chemical oxygen demand (COD) (93 %), BiologicalOxygen Demand-BOD (93 %), oil & grease (96 %) and heavy metals (HM) (98 %).It is suggested that combined techniques are the best option for textile effluenttreatment.
format article
author Tooba Naveed
Niaz Ahmed
Shahid Bhutto
Nazeer Tunyo
Durdana Hashmi
author_facet Tooba Naveed
Niaz Ahmed
Shahid Bhutto
Nazeer Tunyo
Durdana Hashmi
author_sort Tooba Naveed
title A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
title_short A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
title_full A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
title_fullStr A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
title_full_unstemmed A sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
title_sort sustainable solution to treat textile effluent by employing combined coagulation, oxidation and ultrafiltration techniques
publisher Razi University
publishDate 2021
url https://doaj.org/article/f7b2f9c496bf43baafdaa7554a97aa30
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