Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions
In this work, two different commercial macroscopic adsorbent materials (Na-ZSM5 zeolite in spherical pellets and TiO2 cylindrical pellets) has been tested in the removal of model organic food dyes (Patent blue V, E131) and they were regenerated using an innovative techniques based on non-thermal pla...
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2019-04-01
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doaj-2025d71c89f14b1d910d79344bde4c812021-02-16T21:08:24ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162019-04-017310.3303/CET1973026Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous SolutionsGiuseppina IervolinoOlga SaccoVincenzo VaianoVincenzo PalmaIn this work, two different commercial macroscopic adsorbent materials (Na-ZSM5 zeolite in spherical pellets and TiO2 cylindrical pellets) has been tested in the removal of model organic food dyes (Patent blue V, E131) and they were regenerated using an innovative techniques based on non-thermal plasma process. The adsorption experiments were carried out using a pyrex cylindrical reactor and liquid samples were analyzed in continuous mode by spectrophotometric measurement at ? = 636 nm. The results demonstrated that these materials were able to remove Patent blue V dye, with removal efficiency equal to 80% for the zeolite and 95% for TiO2 pellets after 400 min of treatment time. The adsorbent materials have been used for several cycles until their saturation. In particular, after seven adsorption cycles, the adsorbing capacity was reduced of about 60 and 20% for zeolite and TiO2 pellets, respectively. Subsequently, the materials were regenerated by non-thermal plasma and reused in the adsorption system. The results evidenced that the regeneration by non-thermal plasma was able to induce the complete degradation of the absorbed organic substance and consequently restoring the initial adsorption capacity of both macroscopic adsorbent materials https://www.cetjournal.it/index.php/cet/article/view/9636 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Giuseppina Iervolino Olga Sacco Vincenzo Vaiano Vincenzo Palma |
spellingShingle |
Giuseppina Iervolino Olga Sacco Vincenzo Vaiano Vincenzo Palma Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions Chemical Engineering Transactions |
author_facet |
Giuseppina Iervolino Olga Sacco Vincenzo Vaiano Vincenzo Palma |
author_sort |
Giuseppina Iervolino |
title |
Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions |
title_short |
Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions |
title_full |
Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions |
title_fullStr |
Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions |
title_full_unstemmed |
Non-thermal Plasma Technology for the Effective Regeneration of Macroscopic Adsorbent Materials Used in the Removal of Patent Blue V Dye from Aqueous Solutions |
title_sort |
non-thermal plasma technology for the effective regeneration of macroscopic adsorbent materials used in the removal of patent blue v dye from aqueous solutions |
publisher |
AIDIC Servizi S.r.l. |
series |
Chemical Engineering Transactions |
issn |
2283-9216 |
publishDate |
2019-04-01 |
description |
In this work, two different commercial macroscopic adsorbent materials (Na-ZSM5 zeolite in spherical pellets and TiO2 cylindrical pellets) has been tested in the removal of model organic food dyes (Patent blue V, E131) and they were regenerated using an innovative techniques based on non-thermal plasma process. The adsorption experiments were carried out using a pyrex cylindrical reactor and liquid samples were analyzed in continuous mode by spectrophotometric measurement at ? = 636 nm. The results demonstrated that these materials were able to remove Patent blue V dye, with removal efficiency equal to 80% for the zeolite and 95% for TiO2 pellets after 400 min of treatment time. The adsorbent materials have been used for several cycles until their saturation. In particular, after seven adsorption cycles, the adsorbing capacity was reduced of about 60 and 20% for zeolite and TiO2 pellets, respectively. Subsequently, the materials were regenerated by non-thermal plasma and reused in the adsorption system. The results evidenced that the regeneration by non-thermal plasma was able to induce the complete degradation of the absorbed organic substance and consequently restoring the initial adsorption capacity of both macroscopic adsorbent materials |
url |
https://www.cetjournal.it/index.php/cet/article/view/9636 |
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