Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal

Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal

Rice husk and polyethylene were mixed (50 % w/w each) and submitted to a pyrolysis assay. Four physical activations with CO2 were performed on the resulting co-pyrolysis char (PC). The activation at 800 °C, for 4h, generated the activated carbon (PAC3) with the best textural properties. PC, PAC3 and...

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Main Authors: D. Dias, M. Bernardo, N. Lapa, F. Pinto, I. Matos, I. Fonseca
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2018-06-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/3009
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spelling doaj-67962e4deedc4d36ad2cd48e64fbd68a2021-02-17T21:05:39ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162018-06-016510.3303/CET1865101Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) RemovalD. DiasM. BernardoN. LapaF. PintoI. MatosI. FonsecaRice husk and polyethylene were mixed (50 % w/w each) and submitted to a pyrolysis assay. Four physical activations with CO2 were performed on the resulting co-pyrolysis char (PC). The activation at 800 °C, for 4h, generated the activated carbon (PAC3) with the best textural properties. PC, PAC3 and a commercial activated carbon (CAC) were characterized and submitted to Cr(III) removal assays. PC had a high percentage of volatile matter that was removed after the physical activation, resulting in more available poresin the final material (PAC). In the Cr(III) removal assays, two S/L ratios were tested: 5 and 10 g L-1. PC did notremove any Cr(III) from the solutions, but PAC presented similar results to CAC. At the S/L of 5 g L-1, Cr(III) removal was of 58.5 % for PAC and 62.5 % for CAC, both by adsorption mechanism; at the S/L of 10 g L-1, Cr(III) removal was almost complete due to precipitation caused by pH increase. The highest uptake capacities were of 7.92 mg g-1 for PAC and 8.71 mg g-1 for CAC, at the S/L of 5 g L-1. The results indicated that PAC3 may be a viable alternative to CAC on Cr(III) removal from aqueous media.https://www.cetjournal.it/index.php/cet/article/view/3009
collection DOAJ
language English
format Article
sources DOAJ
author D. Dias
M. Bernardo
N. Lapa
F. Pinto
I. Matos
I. Fonseca
spellingShingle D. Dias
M. Bernardo
N. Lapa
F. Pinto
I. Matos
I. Fonseca
Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
Chemical Engineering Transactions
author_facet D. Dias
M. Bernardo
N. Lapa
F. Pinto
I. Matos
I. Fonseca
author_sort D. Dias
title Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
title_short Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
title_full Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
title_fullStr Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
title_full_unstemmed Activated Carbons from the Co-pyrolysis of Rice Wastes for Cr(III) Removal
title_sort activated carbons from the co-pyrolysis of rice wastes for cr(iii) removal
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2018-06-01
description Rice husk and polyethylene were mixed (50 % w/w each) and submitted to a pyrolysis assay. Four physical activations with CO2 were performed on the resulting co-pyrolysis char (PC). The activation at 800 °C, for 4h, generated the activated carbon (PAC3) with the best textural properties. PC, PAC3 and a commercial activated carbon (CAC) were characterized and submitted to Cr(III) removal assays. PC had a high percentage of volatile matter that was removed after the physical activation, resulting in more available poresin the final material (PAC). In the Cr(III) removal assays, two S/L ratios were tested: 5 and 10 g L-1. PC did notremove any Cr(III) from the solutions, but PAC presented similar results to CAC. At the S/L of 5 g L-1, Cr(III) removal was of 58.5 % for PAC and 62.5 % for CAC, both by adsorption mechanism; at the S/L of 10 g L-1, Cr(III) removal was almost complete due to precipitation caused by pH increase. The highest uptake capacities were of 7.92 mg g-1 for PAC and 8.71 mg g-1 for CAC, at the S/L of 5 g L-1. The results indicated that PAC3 may be a viable alternative to CAC on Cr(III) removal from aqueous media.
url https://www.cetjournal.it/index.php/cet/article/view/3009
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