Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed

Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed

The main goal of this experimental work is screening of different natural and synthetic nanomaterials and biopolymers that may improve elimination of stable micropollutants from water phase. In this work, as a target chemical acting as the micropollutant molecule, the Brilliant Blue (BB) dye was sel...

Full description

Bibliographic Details
Main Authors: Paweł K. Zarzycki, Lucyna Lewandowska, Bożena Fenert, Krzysztof Piaskowski, Janusz Kobaka
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Nanomaterials
Subjects:
micropollutants
wastewater
microanalysis
chemometrics
duckweed
cyclodextrin
Online Access:https://www.mdpi.com/2079-4991/11/7/1747
id doaj-0c4f0811044e4c209bbc7bf1cbcff8e2
record_format Article
spelling doaj-0c4f0811044e4c209bbc7bf1cbcff8e22021-07-23T13:57:32ZengMDPI AGNanomaterials2079-49912021-07-01111747174710.3390/nano11071747Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and DuckweedPaweł K. Zarzycki0Lucyna Lewandowska1Bożena Fenert2Krzysztof Piaskowski3Janusz Kobaka4Faculty of Civil Engineering, Environmental and Geodetic Sciences, Koszalin University of Technology, 75-453 Koszalin, PolandFaculty of Civil Engineering, Environmental and Geodetic Sciences, Koszalin University of Technology, 75-453 Koszalin, PolandFaculty of Civil Engineering, Environmental and Geodetic Sciences, Koszalin University of Technology, 75-453 Koszalin, PolandFaculty of Civil Engineering, Environmental and Geodetic Sciences, Koszalin University of Technology, 75-453 Koszalin, PolandFaculty of Geoengineering, University of Warmia and Mazury in Olsztyn, 10-720 Olsztyn, PolandThe main goal of this experimental work is screening of different natural and synthetic nanomaterials and biopolymers that may improve elimination of stable micropollutants from water phase. In this work, as a target chemical acting as the micropollutant molecule, the Brilliant Blue (BB) dye was selected. We tested different active matrices dispersed in water phase including activated carbon (AC), lyophilized graphene oxide (GO), β-cyclodextrin (CD), raw dandelion pappus (DP), microcrystalline cellulose(MC), and raw pine pollen (PP), as well as two types of Egyptian Blue mineral pigments (EB1 and EB2). Graphene oxide and Egyptian Blue nanomaterials were synthesized in our laboratory. We investigated potential application of such nanoparticles and biopolymer conglomerates as additives that may tune the activated sludge (AS) microorganisms or duckweed water plant (DW) and increase efficiency of micropollutants removal from wastewater. Studied nanomaterials/biopolymers were used in two different experimental modes involving real activated sludge microorganisms (24 h experiment) as well as duckweed plant (16 day experiment). Quantitative data of BB were obtained using microfluidic type device based on micro-TLC plate. This approach enabled direct determination of target component without sample pre-treatment like pre-concentration or pre-purification. Within single analytical run calibration line, retention standard spots (methyl red) and multiple samples were analyzed simultaneously. Due to the multivariate nature of these experiments, quantitative data were explored with chemometric tools including AHC (agglomerative hierarchical clustering), PCA (principal component analysis), and FA (factor analysis). Experimental data and multivariate calculations revealed that BB is strongly resistant on biodegradation, however, inclusion complexes formation with β-cyclodextrinmay induce degradation of this dye in the presence of duckweed. It is hoped that results of our experimental work can be used for designing of future experiments for fast screening of different additives and improvement of technological processes, focusing on purification of sewage and water from micropollutants.https://www.mdpi.com/2079-4991/11/7/1747micropollutantswastewatermicroanalysischemometricsduckweedcyclodextrin
collection DOAJ
language English
format Article
sources DOAJ
author Paweł K. Zarzycki
Lucyna Lewandowska
Bożena Fenert
Krzysztof Piaskowski
Janusz Kobaka
spellingShingle Paweł K. Zarzycki
Lucyna Lewandowska
Bożena Fenert
Krzysztof Piaskowski
Janusz Kobaka
Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
Nanomaterials
micropollutants
wastewater
microanalysis
chemometrics
duckweed
cyclodextrin
author_facet Paweł K. Zarzycki
Lucyna Lewandowska
Bożena Fenert
Krzysztof Piaskowski
Janusz Kobaka
author_sort Paweł K. Zarzycki
title Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
title_short Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
title_full Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
title_fullStr Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
title_full_unstemmed Investigation of Hybrid Methods for Elimination of Brilliant Blue Dye from Water Phase Using Various Nanomaterials Combined with Activated Sludge and Duckweed
title_sort investigation of hybrid methods for elimination of brilliant blue dye from water phase using various nanomaterials combined with activated sludge and duckweed
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2021-07-01
description The main goal of this experimental work is screening of different natural and synthetic nanomaterials and biopolymers that may improve elimination of stable micropollutants from water phase. In this work, as a target chemical acting as the micropollutant molecule, the Brilliant Blue (BB) dye was selected. We tested different active matrices dispersed in water phase including activated carbon (AC), lyophilized graphene oxide (GO), β-cyclodextrin (CD), raw dandelion pappus (DP), microcrystalline cellulose(MC), and raw pine pollen (PP), as well as two types of Egyptian Blue mineral pigments (EB1 and EB2). Graphene oxide and Egyptian Blue nanomaterials were synthesized in our laboratory. We investigated potential application of such nanoparticles and biopolymer conglomerates as additives that may tune the activated sludge (AS) microorganisms or duckweed water plant (DW) and increase efficiency of micropollutants removal from wastewater. Studied nanomaterials/biopolymers were used in two different experimental modes involving real activated sludge microorganisms (24 h experiment) as well as duckweed plant (16 day experiment). Quantitative data of BB were obtained using microfluidic type device based on micro-TLC plate. This approach enabled direct determination of target component without sample pre-treatment like pre-concentration or pre-purification. Within single analytical run calibration line, retention standard spots (methyl red) and multiple samples were analyzed simultaneously. Due to the multivariate nature of these experiments, quantitative data were explored with chemometric tools including AHC (agglomerative hierarchical clustering), PCA (principal component analysis), and FA (factor analysis). Experimental data and multivariate calculations revealed that BB is strongly resistant on biodegradation, however, inclusion complexes formation with β-cyclodextrinmay induce degradation of this dye in the presence of duckweed. It is hoped that results of our experimental work can be used for designing of future experiments for fast screening of different additives and improvement of technological processes, focusing on purification of sewage and water from micropollutants.
topic micropollutants
wastewater
microanalysis
chemometrics
duckweed
cyclodextrin
url https://www.mdpi.com/2079-4991/11/7/1747
work_keys_str_mv AT pawełkzarzycki investigationofhybridmethodsforeliminationofbrilliantbluedyefromwaterphaseusingvariousnanomaterialscombinedwithactivatedsludgeandduckweed
AT lucynalewandowska investigationofhybridmethodsforeliminationofbrilliantbluedyefromwaterphaseusingvariousnanomaterialscombinedwithactivatedsludgeandduckweed
AT bozenafenert investigationofhybridmethodsforeliminationofbrilliantbluedyefromwaterphaseusingvariousnanomaterialscombinedwithactivatedsludgeandduckweed
AT krzysztofpiaskowski investigationofhybridmethodsforeliminationofbrilliantbluedyefromwaterphaseusingvariousnanomaterialscombinedwithactivatedsludgeandduckweed
AT januszkobaka investigationofhybridmethodsforeliminationofbrilliantbluedyefromwaterphaseusingvariousnanomaterialscombinedwithactivatedsludgeandduckweed
_version_ 1721286738734743552

Similar Items