Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning

PaintosorpTM is an innovative adsorbent coating that was designed for the removal of dyes from industrial wastewater. This research focuses on the methods of applying PaintosorpTM and PVB/Bentonite via various methods such as brushing, airbrushing and electrospinning. Airbrushing uses air pressure t...

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Main Author: Jalil, Aiizat Ikhwan Abdul
Format: Thesis
Language:English
Published: 2019
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Online Access:http://eprints.usm.my/47956/1/Thin%20Layer%20Adsorbent%20For%20The%20Removal%20Of%20Methylene%20Blue%20Via%20Brushing%2C%20Airbrushing%20And%20Electrospinning.pdf
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spelling my.usm.eprints.47956 http://eprints.usm.my/47956/ Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning Jalil, Aiizat Ikhwan Abdul T Technology TP155-156 Chemical engineering PaintosorpTM is an innovative adsorbent coating that was designed for the removal of dyes from industrial wastewater. This research focuses on the methods of applying PaintosorpTM and PVB/Bentonite via various methods such as brushing, airbrushing and electrospinning. Airbrushing uses air pressure to paint PaintosorpTM in miniscule droplets meanwhile electrospinning utilizes high voltage to weave the adsorbent into nanofibers. The adsorption ability of airbrushed PaintosorpTM and electrospun PVB/Bentonite nanofiber was tested with the change in stirring velocity, pH and initial adsorbate concentrations. PaintosorpTM recorded high adsorption of 100% removal for both low (20 ppm) and high concentrations (200 ppm) in the first 4 hours of the experiment and is affected slightly with the change pH and stirring velocity. The adsorption capacity of airbrushed PaintosorpTM were at 45.0 mg/g when tested with high concentration of MB of 200 ppm. The electrospun PVB/Bentonite nanofiber had lower removal compared to PaintosorpTM where it had only 88% removal of MB at 20 ppm and 33% removal at 200 ppm. The adsorption capacity of the electrospun nanofiber were at 47.7 mg/g when tested with 200 ppm. The changes in pH and initial adsorbate concentrations had significant effect on its MB removal. The PVB/Bentonite nanofiber performs poorly in acidic conditions and the MB removal drops as the concentration increase from 100 ppm to 200 ppm, where the MB removal was at 47% removal to 33% removal respectively. The stirring rate only had slight effect on the nanofiber adsorption ability. The characterization of the airbrushed PaintosorpTM coating and PVB/Bentonite nanofibers were done using SEM, EDX and FTIR. It is found that the nanofiber were more porous than the coating but the coating had higher presence of Al and Si atoms. The airbrushed PaintosorpTM coating fits the Freundlich isotherm model meanwhile the PVB/Bentonite nanofiber fits the Langmuir model. The adsorbent kinetics studies revealed that both the adsorbent coating and nanofiber fits the pseudo-second-order model. 2019-08-01 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/47956/1/Thin%20Layer%20Adsorbent%20For%20The%20Removal%20Of%20Methylene%20Blue%20Via%20Brushing%2C%20Airbrushing%20And%20Electrospinning.pdf Jalil, Aiizat Ikhwan Abdul (2019) Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning. Masters thesis, Universiti Sains Malaysia.
institution Universiti Sains Malaysia
building Hamzah Sendut Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Sains Malaysia
content_source USM Institutional Repository
url_provider http://eprints.usm.my/
language English
topic T Technology
TP155-156 Chemical engineering
spellingShingle T Technology
TP155-156 Chemical engineering
Jalil, Aiizat Ikhwan Abdul
Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
description PaintosorpTM is an innovative adsorbent coating that was designed for the removal of dyes from industrial wastewater. This research focuses on the methods of applying PaintosorpTM and PVB/Bentonite via various methods such as brushing, airbrushing and electrospinning. Airbrushing uses air pressure to paint PaintosorpTM in miniscule droplets meanwhile electrospinning utilizes high voltage to weave the adsorbent into nanofibers. The adsorption ability of airbrushed PaintosorpTM and electrospun PVB/Bentonite nanofiber was tested with the change in stirring velocity, pH and initial adsorbate concentrations. PaintosorpTM recorded high adsorption of 100% removal for both low (20 ppm) and high concentrations (200 ppm) in the first 4 hours of the experiment and is affected slightly with the change pH and stirring velocity. The adsorption capacity of airbrushed PaintosorpTM were at 45.0 mg/g when tested with high concentration of MB of 200 ppm. The electrospun PVB/Bentonite nanofiber had lower removal compared to PaintosorpTM where it had only 88% removal of MB at 20 ppm and 33% removal at 200 ppm. The adsorption capacity of the electrospun nanofiber were at 47.7 mg/g when tested with 200 ppm. The changes in pH and initial adsorbate concentrations had significant effect on its MB removal. The PVB/Bentonite nanofiber performs poorly in acidic conditions and the MB removal drops as the concentration increase from 100 ppm to 200 ppm, where the MB removal was at 47% removal to 33% removal respectively. The stirring rate only had slight effect on the nanofiber adsorption ability. The characterization of the airbrushed PaintosorpTM coating and PVB/Bentonite nanofibers were done using SEM, EDX and FTIR. It is found that the nanofiber were more porous than the coating but the coating had higher presence of Al and Si atoms. The airbrushed PaintosorpTM coating fits the Freundlich isotherm model meanwhile the PVB/Bentonite nanofiber fits the Langmuir model. The adsorbent kinetics studies revealed that both the adsorbent coating and nanofiber fits the pseudo-second-order model.
format Thesis
author Jalil, Aiizat Ikhwan Abdul
author_facet Jalil, Aiizat Ikhwan Abdul
author_sort Jalil, Aiizat Ikhwan Abdul
title Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
title_short Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
title_full Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
title_fullStr Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
title_full_unstemmed Thin Layer Adsorbent For The Removal Of Methylene Blue Via Brushing, Airbrushing And Electrospinning
title_sort thin layer adsorbent for the removal of methylene blue via brushing, airbrushing and electrospinning
publishDate 2019
url http://eprints.usm.my/47956/1/Thin%20Layer%20Adsorbent%20For%20The%20Removal%20Of%20Methylene%20Blue%20Via%20Brushing%2C%20Airbrushing%20And%20Electrospinning.pdf
http://eprints.usm.my/47956/
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score 13.211869