Sulfated zirconium oxide-decorated magnetite KCC-1 as a durable and recyclable adsorbent for the efficient removal of asphaltene from crude oil

Sulfated zirconium oxide (ZrO 2 /SO 4 2− ) as a highly durable acidic reagent was immobilized on magnetite KCC-1 nanoparticles (Fe 3 O 4 @SiO 2 /KCC-1@ZrO 2 /SO 4 2− NPs), and the resulting hybrid was used as a highly efficient recyclable adsorbent for the adsorption and removal of asphaltene from c...

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Veröffentlicht in:RSC advances 2021-07, Vol.11 (42), p.26174-26187
Hauptverfasser: Shaafi, Farhad Bohlooli, Motavalizadehkakhky, Alireza, Zhiani, Rahele, Nouri, Seyed Mohammad Mahdi, Hosseiny, Malihesadat
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container_issue 42
container_start_page 26174
container_title RSC advances
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creator Shaafi, Farhad Bohlooli
Motavalizadehkakhky, Alireza
Zhiani, Rahele
Nouri, Seyed Mohammad Mahdi
Hosseiny, Malihesadat
description Sulfated zirconium oxide (ZrO 2 /SO 4 2− ) as a highly durable acidic reagent was immobilized on magnetite KCC-1 nanoparticles (Fe 3 O 4 @SiO 2 /KCC-1@ZrO 2 /SO 4 2− NPs), and the resulting hybrid was used as a highly efficient recyclable adsorbent for the adsorption and removal of asphaltene from crude oil. The presence of ZrO 2 /SO 4 2− groups not only promotes the adsorption capacity, but also helps recycle the adsorbents without any significant efficiency loss arising from its high chemical resistance. The results showed an obvious synergistic effect between the magnetic core (Fe 3 O 4 NPs), fibrous silica (KCC-1) and the sulfated zirconium oxide groups with high correlation for asphaltene adsorption. The effective parameters in asphaltene adsorption, including initial asphaltene concentration, catalyst concentration and temperature, were investigated. Maximum adsorption occurred in the presence of 0.7 g L −1 of the adsorbent, at a concentration of 2000 mg L −1 of asphaltene. The asphaltene adsorption by NPs follows a quasi-second order adsorption kinetics. Asphaltene adsorption kinetics were studied by Langmuir, Freundlich, and Temkin isotherms. The prominent advantage of the adsorbent is its ability to be recovered after each adsorption by acid treatment, so that no significant reduction in adsorbent adsorption activity was observed, which can be directly attributed to the presence of ZrO 2 /SO 4 2− groups in the hybrid. A new, efficient and recyclable hybrid based on immobilized sulfated zirconium oxide on magnetite fibrous silica (KCC-1) has been developed and utilized for the efficient adsorption and removal of asphaltene from crude oil.
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The presence of ZrO 2 /SO 4 2− groups not only promotes the adsorption capacity, but also helps recycle the adsorbents without any significant efficiency loss arising from its high chemical resistance. The results showed an obvious synergistic effect between the magnetic core (Fe 3 O 4 NPs), fibrous silica (KCC-1) and the sulfated zirconium oxide groups with high correlation for asphaltene adsorption. The effective parameters in asphaltene adsorption, including initial asphaltene concentration, catalyst concentration and temperature, were investigated. Maximum adsorption occurred in the presence of 0.7 g L −1 of the adsorbent, at a concentration of 2000 mg L −1 of asphaltene. The asphaltene adsorption by NPs follows a quasi-second order adsorption kinetics. Asphaltene adsorption kinetics were studied by Langmuir, Freundlich, and Temkin isotherms. The prominent advantage of the adsorbent is its ability to be recovered after each adsorption by acid treatment, so that no significant reduction in adsorbent adsorption activity was observed, which can be directly attributed to the presence of ZrO 2 /SO 4 2− groups in the hybrid. 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The prominent advantage of the adsorbent is its ability to be recovered after each adsorption by acid treatment, so that no significant reduction in adsorbent adsorption activity was observed, which can be directly attributed to the presence of ZrO 2 /SO 4 2− groups in the hybrid. 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The presence of ZrO 2 /SO 4 2− groups not only promotes the adsorption capacity, but also helps recycle the adsorbents without any significant efficiency loss arising from its high chemical resistance. The results showed an obvious synergistic effect between the magnetic core (Fe 3 O 4 NPs), fibrous silica (KCC-1) and the sulfated zirconium oxide groups with high correlation for asphaltene adsorption. The effective parameters in asphaltene adsorption, including initial asphaltene concentration, catalyst concentration and temperature, were investigated. Maximum adsorption occurred in the presence of 0.7 g L −1 of the adsorbent, at a concentration of 2000 mg L −1 of asphaltene. The asphaltene adsorption by NPs follows a quasi-second order adsorption kinetics. Asphaltene adsorption kinetics were studied by Langmuir, Freundlich, and Temkin isotherms. 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subjects Acidic oxides
Adsorbents
Adsorption
Asphaltenes
Chemistry
Crude oil
Iron oxides
Kinetics
Magnetic cores
Magnetite
Nanoparticles
Reagents
Silicon dioxide
Synergistic effect
Zirconium
Zirconium dioxide
Zirconium oxides
title Sulfated zirconium oxide-decorated magnetite KCC-1 as a durable and recyclable adsorbent for the efficient removal of asphaltene from crude oil
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