Catalytic oxidative desulphurization of gasoline using amphiphilic polyoxometalatepolymer nanocomposite as an efficient, reusable, and green organic-inorganic hybrid catalyst

Catalytic oxidative desulphurization of gasoline using amphiphilic polyoxometalatepolymer nanocomposite as an efficient, reusable, and green organic-inorganic hybrid catalyst

To preparation of ultra-clean gasoline fuel, a new amphiphilic nanocomposite (TBA-SiWMnPVA) has been successfully synthesized by supporting sandwich-type silicotungstate polyoxometalate ((n-C4H9)4N)7H5Si2W18Mn4O68 (TBA-SiWMn) on polyvinylalcohol (PVA) as an efficient catalyst for catalytic oxidative...

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Publié dans:Environmental technology. - 1993. - 41(2020), 10 vom: 18. Apr., Seite 1219-1231
Auteur principal: Rezvani, Mohammad Ali (Auteur)
Autres auteurs: Shaterian, Maryam, Aghmasheh, Masomeh
Format: Article en ligne
Langue:English
Publié: 2020
Accès à la collection:Environmental technology
Sujets:Journal Article Sandwich-type heteropolyatom catalyst gasoline nanocomposite polyvinylalcohol Gasoline Polymers Tungsten Compounds polyoxometalate I plus... Hydrogen Peroxide BBX060AN9V
Description
Résumé:To preparation of ultra-clean gasoline fuel, a new amphiphilic nanocomposite (TBA-SiWMnPVA) has been successfully synthesized by supporting sandwich-type silicotungstate polyoxometalate ((n-C4H9)4N)7H5Si2W18Mn4O68 (TBA-SiWMn) on polyvinylalcohol (PVA) as an efficient catalyst for catalytic oxidative desulphurization (CODS) of gasoline. The synthesized materials were characterized by means of elemental analysis, 113Mn NMR, 29Si NMR, XRD, SEM, FT-IR and UV-vis techniques. The catalytic activity of TBA-SiWMn@PVA nanocomposite was tested on real gasoline in the presence of CH3COOH/H2O2 as an oxidant and the results were compared with model sulphur compounds at the same conditions. The TBA-SiWMn@PVA nanocomposite was shown excellent catalytic performance and recoverability for ODS of gasoline with high yield. The effects of the reaction time, reaction temperature, dosage and nature of catalyst were investigated. The reaction mechanism and the kinetic parameters of sulphur compounds oxidation were also discussed. The probable mechanism was proposed via the electrophilic mechanism through the formation of a peroxometalate intermediate complex with phase transfer properties. Results were indicated that the kinetics of sulphur oxidation fitted the pseudo-first-order kinetic model. After 5 oxidation runs, the heterogeneous nanocatalyst was separated and recovered easily
Description:Date Completed 24.03.2020
Date Revised 24.03.2020
published: Print-Electronic
Citation Status MEDLINE
ISSN:1479-487X
DOI:10.1080/09593330.2018.1526217