Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises

Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises

The results of deep oxidation of toluene on polyoxide nickel-, copper-, chromium-containing catalysts supported on 2 % Ce/?-Al2O3 are presented in the paper. Effect of process parameters (temperature, space velocity, concentration of toluene in a gaseous mixture) on the completeness conversion of to...

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Main Authors: Z.T. Zheksenbaeva, S.A. Tungatarova, T.S. Baizhumanova, E. Shaizada
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2015-09-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/4610
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spelling doaj-1cd1e732102241498a0c82b1866571362021-02-20T21:04:06ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162015-09-014510.3303/CET1545203Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial EnterprisesZ.T. ZheksenbaevaS.A. TungatarovaT.S. BaizhumanovaE. ShaizadaThe results of deep oxidation of toluene on polyoxide nickel-, copper-, chromium-containing catalysts supported on 2 % Ce/?-Al2O3 are presented in the paper. Effect of process parameters (temperature, space velocity, concentration of toluene in a gaseous mixture) on the completeness conversion of toluene(to CO2 and H2O) on polyoxide catalyst has been studied. Polyoxide Ni-Cu-Cr catalyst supported on 2 % Ce/?-Al2O3 in oxidation of toluene at space velocity of 5×103 h-1, 723 - 773 K and 320 mg/m3 toluene content in initial mixture provides 98.8 % toluene conversion to CO2. The presence of CeO2 crystals and X- ray amorphous clusters (d = 20 – 100 Å) of the oxides of metals of variable valence NiO, CuO, and solidsolutions of metals CuO (NiO) on the surface of Ni-Cu-Cr/2 % Ce/?-Al2O3 catalyst calcined at 873 K was installed by X-ray diffraction and electron microscopy.https://www.cetjournal.it/index.php/cet/article/view/4610
collection DOAJ
language English
format Article
sources DOAJ
author Z.T. Zheksenbaeva
S.A. Tungatarova
T.S. Baizhumanova
E. Shaizada
spellingShingle Z.T. Zheksenbaeva
S.A. Tungatarova
T.S. Baizhumanova
E. Shaizada
Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
Chemical Engineering Transactions
author_facet Z.T. Zheksenbaeva
S.A. Tungatarova
T.S. Baizhumanova
E. Shaizada
author_sort Z.T. Zheksenbaeva
title Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
title_short Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
title_full Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
title_fullStr Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
title_full_unstemmed Development of Technology for Catalytic Neutralization of Toxic Impurities of Waste Gas from Industrial Enterprises
title_sort development of technology for catalytic neutralization of toxic impurities of waste gas from industrial enterprises
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2015-09-01
description The results of deep oxidation of toluene on polyoxide nickel-, copper-, chromium-containing catalysts supported on 2 % Ce/?-Al2O3 are presented in the paper. Effect of process parameters (temperature, space velocity, concentration of toluene in a gaseous mixture) on the completeness conversion of toluene(to CO2 and H2O) on polyoxide catalyst has been studied. Polyoxide Ni-Cu-Cr catalyst supported on 2 % Ce/?-Al2O3 in oxidation of toluene at space velocity of 5×103 h-1, 723 - 773 K and 320 mg/m3 toluene content in initial mixture provides 98.8 % toluene conversion to CO2. The presence of CeO2 crystals and X- ray amorphous clusters (d = 20 – 100 Å) of the oxides of metals of variable valence NiO, CuO, and solidsolutions of metals CuO (NiO) on the surface of Ni-Cu-Cr/2 % Ce/?-Al2O3 catalyst calcined at 873 K was installed by X-ray diffraction and electron microscopy.
url https://www.cetjournal.it/index.php/cet/article/view/4610
work_keys_str_mv AT ztzheksenbaeva developmentoftechnologyforcatalyticneutralizationoftoxicimpuritiesofwastegasfromindustrialenterprises
AT satungatarova developmentoftechnologyforcatalyticneutralizationoftoxicimpuritiesofwastegasfromindustrialenterprises
AT tsbaizhumanova developmentoftechnologyforcatalyticneutralizationoftoxicimpuritiesofwastegasfromindustrialenterprises
AT eshaizada developmentoftechnologyforcatalyticneutralizationoftoxicimpuritiesofwastegasfromindustrialenterprises
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