Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming

In this study, a novel photoelectrocatalytic membrane (PECM) reactor was tested as an option for the desalination, disinfection, and detoxification of biologically treated textile wastewater (BTTWW), with the aim to reuse it in hydroponic farming. The anionic ion exchange (IEX) process was used befo...

Descripción completa

Detalles Bibliográficos
Autores principales: Aydin, Muhammed Iberia, Ozaktac, Damla, Yuzer, Burak, Doğu, Mustafa, Inan, Hatice, Okten, Hatice Eser, Coskun, Serdar, Selcuk, Huseyin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8777688/
https://www.ncbi.nlm.nih.gov/pubmed/35054537
http://dx.doi.org/10.3390/membranes12010010
_version_ 1784637126941343744
author Aydin, Muhammed Iberia
Ozaktac, Damla
Yuzer, Burak
Doğu, Mustafa
Inan, Hatice
Okten, Hatice Eser
Coskun, Serdar
Selcuk, Huseyin
author_facet Aydin, Muhammed Iberia
Ozaktac, Damla
Yuzer, Burak
Doğu, Mustafa
Inan, Hatice
Okten, Hatice Eser
Coskun, Serdar
Selcuk, Huseyin
author_sort Aydin, Muhammed Iberia
collection PubMed
description In this study, a novel photoelectrocatalytic membrane (PECM) reactor was tested as an option for the desalination, disinfection, and detoxification of biologically treated textile wastewater (BTTWW), with the aim to reuse it in hydroponic farming. The anionic ion exchange (IEX) process was used before PECM treatment to remove toxic residual dyes. The toxicity evaluation for every effluent was carried out using the Vibrio fischeri, Microtox(®) test protocol. The disinfection effect of the PECM reactor was studied against E. coli. After PECM treatment, the 78.7% toxicity level of the BTTWW was reduced to 14.6%. However, photocatalytic desalination during treatment was found to be slow (2.5 mg L(−1) min(−1) at 1 V potential). The reactor demonstrated approximately 52% COD and 63% TOC removal efficiency. The effects of wastewater reuse on hydroponic production were comparatively investigated by following the growth of the lettuce plant. A detrimental effect was observed on the lettuce plant by the reuse of BTTWW, while no negative impact was reported using the PECM treated textile wastewater. In addition, all macro/micronutrient elements in the PECM treated textile wastewater were recovered by hydroponic farming, and the PECM treatment may be an eco-safe wastewater reuse method for crop irrigation.
format Online
Article
Text
id pubmed-8777688
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-87776882022-01-22 Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming Aydin, Muhammed Iberia Ozaktac, Damla Yuzer, Burak Doğu, Mustafa Inan, Hatice Okten, Hatice Eser Coskun, Serdar Selcuk, Huseyin Membranes (Basel) Article In this study, a novel photoelectrocatalytic membrane (PECM) reactor was tested as an option for the desalination, disinfection, and detoxification of biologically treated textile wastewater (BTTWW), with the aim to reuse it in hydroponic farming. The anionic ion exchange (IEX) process was used before PECM treatment to remove toxic residual dyes. The toxicity evaluation for every effluent was carried out using the Vibrio fischeri, Microtox(®) test protocol. The disinfection effect of the PECM reactor was studied against E. coli. After PECM treatment, the 78.7% toxicity level of the BTTWW was reduced to 14.6%. However, photocatalytic desalination during treatment was found to be slow (2.5 mg L(−1) min(−1) at 1 V potential). The reactor demonstrated approximately 52% COD and 63% TOC removal efficiency. The effects of wastewater reuse on hydroponic production were comparatively investigated by following the growth of the lettuce plant. A detrimental effect was observed on the lettuce plant by the reuse of BTTWW, while no negative impact was reported using the PECM treated textile wastewater. In addition, all macro/micronutrient elements in the PECM treated textile wastewater were recovered by hydroponic farming, and the PECM treatment may be an eco-safe wastewater reuse method for crop irrigation. MDPI 2021-12-23 /pmc/articles/PMC8777688/ /pubmed/35054537 http://dx.doi.org/10.3390/membranes12010010 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Aydin, Muhammed Iberia
Ozaktac, Damla
Yuzer, Burak
Doğu, Mustafa
Inan, Hatice
Okten, Hatice Eser
Coskun, Serdar
Selcuk, Huseyin
Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title_full Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title_fullStr Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title_full_unstemmed Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title_short Desalination and Detoxification of Textile Wastewater by Novel Photocatalytic Electrolysis Membrane Reactor for Ecosafe Hydroponic Farming
title_sort desalination and detoxification of textile wastewater by novel photocatalytic electrolysis membrane reactor for ecosafe hydroponic farming
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8777688/
https://www.ncbi.nlm.nih.gov/pubmed/35054537
http://dx.doi.org/10.3390/membranes12010010
work_keys_str_mv AT aydinmuhammediberia desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT ozaktacdamla desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT yuzerburak desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT dogumustafa desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT inanhatice desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT oktenhaticeeser desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT coskunserdar desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming
AT selcukhuseyin desalinationanddetoxificationoftextilewastewaterbynovelphotocatalyticelectrolysismembranereactorforecosafehydroponicfarming

Ejemplares similares