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Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon

Water pollution become an integral concern especially dye pollution which is waste generated by textile industry. In order to reduce the pollution caused by dyes, this study was conducted to determine the usage of chromium modified activated carbon (CMAC) for the adsorption of Acid Yellow 17 (AY 17)...

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Main Author: Guru Balan, Lavanyha
Format: Monograph
Language:English
Published: Universiti Sains Malaysia 2018
Subjects:
T Technology
TP Chemical Technology
Online Access:http://eprints.usm.my/53676/1/Dynamic%20Adsorption%20And%20Regeneration%20Studies%20Of%20Acid%20Yellow%2017%20Using%20Modified%20Activated%20Carbon_Lavanyha%20Guru%20Balan_K4_2018.pdf
http://eprints.usm.my/53676/
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spelling my.usm.eprints.53676 http://eprints.usm.my/53676/ Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon Guru Balan, Lavanyha T Technology TP Chemical Technology Water pollution become an integral concern especially dye pollution which is waste generated by textile industry. In order to reduce the pollution caused by dyes, this study was conducted to determine the usage of chromium modified activated carbon (CMAC) for the adsorption of Acid Yellow 17 (AY 17) dye. Fixed bed adsorption study was conducted to investigate the optimum condition for adsorption of Acid Yellow 17 to occur. For the fixed bed adsorption study, the parameter that was studied was the effect of initial dye concentration (10-50 mg/L), inlet flow rate of AY 17 solution (10-30 mL/min) and bed height of adsorbent (2-4 cm). For the effect of initial dye concentration, the breakthrough time was the fastest for 50 mg/L and 40 mg/L. For the effect of inlet flow rate of AY17 solution, the breakthrough curve becomes steeper as the inlet flow rate of dye solution increases. For the effect of bed height of adsorbent, the breakthrough time increases as the bed height increases. Column dynamics was also studied and the model used was Thomas, Yoon-Nelson, Adams-Bohart, and BDST analysis model. Thomas, Yoon-Nelson and BDST analysis model fitted well the adsorption data as compared to Adams-Bohart model. For the in situ column regeneration study, the breakthrough time decreases and the slope of the curve becomes steeper as the CMAC undergoes series of regeneration. The adsorption capacity also decreases as the regeneration cycle is repeated a few times. Universiti Sains Malaysia 2018-06-01 Monograph NonPeerReviewed application/pdf en http://eprints.usm.my/53676/1/Dynamic%20Adsorption%20And%20Regeneration%20Studies%20Of%20Acid%20Yellow%2017%20Using%20Modified%20Activated%20Carbon_Lavanyha%20Guru%20Balan_K4_2018.pdf Guru Balan, Lavanyha (2018) Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon. Project Report. Universiti Sains Malaysia, Pusat Pengajian Kejuruteraan Kimia. (Submitted)
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
TP Chemical Technology
spellingShingle T Technology
TP Chemical Technology
Guru Balan, Lavanyha
Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
description Water pollution become an integral concern especially dye pollution which is waste generated by textile industry. In order to reduce the pollution caused by dyes, this study was conducted to determine the usage of chromium modified activated carbon (CMAC) for the adsorption of Acid Yellow 17 (AY 17) dye. Fixed bed adsorption study was conducted to investigate the optimum condition for adsorption of Acid Yellow 17 to occur. For the fixed bed adsorption study, the parameter that was studied was the effect of initial dye concentration (10-50 mg/L), inlet flow rate of AY 17 solution (10-30 mL/min) and bed height of adsorbent (2-4 cm). For the effect of initial dye concentration, the breakthrough time was the fastest for 50 mg/L and 40 mg/L. For the effect of inlet flow rate of AY17 solution, the breakthrough curve becomes steeper as the inlet flow rate of dye solution increases. For the effect of bed height of adsorbent, the breakthrough time increases as the bed height increases. Column dynamics was also studied and the model used was Thomas, Yoon-Nelson, Adams-Bohart, and BDST analysis model. Thomas, Yoon-Nelson and BDST analysis model fitted well the adsorption data as compared to Adams-Bohart model. For the in situ column regeneration study, the breakthrough time decreases and the slope of the curve becomes steeper as the CMAC undergoes series of regeneration. The adsorption capacity also decreases as the regeneration cycle is repeated a few times.
format Monograph
author Guru Balan, Lavanyha
author_facet Guru Balan, Lavanyha
author_sort Guru Balan, Lavanyha
title Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
title_short Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
title_full Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
title_fullStr Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
title_full_unstemmed Dynamic Adsorption And Regeneration Studies Of Acid Yellow 17 Using Modified Activated Carbon
title_sort dynamic adsorption and regeneration studies of acid yellow 17 using modified activated carbon
publisher Universiti Sains Malaysia
publishDate 2018
url http://eprints.usm.my/53676/1/Dynamic%20Adsorption%20And%20Regeneration%20Studies%20Of%20Acid%20Yellow%2017%20Using%20Modified%20Activated%20Carbon_Lavanyha%20Guru%20Balan_K4_2018.pdf
http://eprints.usm.my/53676/
_version_ 1739829011619512320
score 13.188404

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