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HomeSolid State PhenomenaSolid State Phenomena Vol. 299Novel Catalytic Systems Based on Platinum...

Novel Catalytic Systems Based on Platinum Catalysts

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Abstract:

The paper presents a method for the production of 1% platinum catalysts containing oxides of rare-earth elements (REE); it also dwells upon the results of analyzing such catalysts by scanning electron microscopy (SEM), x-ray diffraction analysis (XDA), and thermal analysis (DTA-TGA).

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Materials Engineering and Technologies for Production and Processing V

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Periodical:

Solid State Phenomena (Volume 299)

Pages:

1033-1037

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.299.1033

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Online since:

January 2020

Authors:

G. M. Kurunina*, O.M. Ivankina, G. M. Butov

Keywords:

Active Phase, Catalyst, Hydrogenation, Oxides of Rare-Earth Elements, Platinum

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© 2020 Trans Tech Publications Ltd. All Rights Reserved

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[1] N.G. Zubritskaya, О.V. Kozlova, О.G. Korolkova, E.N. Yurchenko, O.P. Firsov, Patent RF 2050195, (1995).

[2] M.Zh. Burkeev, T.O. Khamitova, D. Havlicek, E.M. Tazhbaev, S.Zh. Davrenbekov, G.E. Kozhabekova, Synthesis and Catalytic Properties of Polymer-Immobilized Nanoparticles of Cobalt and Nickel, Catalysis in Industry, 18(3) (2018) 8-15.

DOI: 10.18412/1816-0387-2018-3-8-15

[3] V.Yu. Doluda, A.E. Filatova, E.M. Sulman, V.G. Matveeva, S.P. Mikhailov, A.I. Sidorov, Yu.Yu. Kosivtsov, Studies of Three-Phase Hydrogenation of Nitrobenzene to Aniline in the Presence of a Ruthenium Catalyst, Catalysis in Industry, 18(4) (2018) 41-47.

DOI: 10.18412/1816-0387-2018-4-41-47

[4] G.V. Pankina, P.A. Chernavsky, A.Yu. G. V. Pankina, P. A. Chernavskii, A.Yu. Krylova, V.V. Lunin, Formation of Co-Ru/MgO/Al2O3 catalysts for the Fischer-Tropsch synthesis: A magnetic method for the estimation of cobalt particle size, Kinetics and Catalysis, 48(4) (2007) 606-610.

DOI: 10.1134/s0023158407040143

[5] V.R. Chary, Ch.S. Srikanth, Selective Hydrogenation of Nitrobenzene to Aniline over Ru/SBA-15 Catalysts, Catalysis Letters, 128(1-2) (2009) 164-169.

DOI: 10.1007/s10562-008-9720-1

[6] I.R. Il'yasov, M.V. Nazarov, A.A. Lamberov, Synthesis and Characterization of Palladium Catalysts Deposited on Δ-AL2O3/NI δ-Al2O3/Ni Composite, Catalysis in Industry, 6 (2014) 50-58.

DOI: 10.1134/s2070050415010079

[7] L.Z. Kasyanova, R.R. Daminev, O.Kh. Karimov, E.Kh. Karimov, D.V. Bakke, M.Yu. Cherezov, Nickel Catalyst for Hydrogenation of Unsaturated Hydrocarbons, Bashkir Chemical Journal, 23(1) (2016) 30-33.

[8] Pieter Hildegardus Berben (NL), Tjalling Rekker (NL), Patent RF 2330718, (2008).

[9] Z.A. Sabirova, М.М. Danilova, V.I. Zaikovskii, Nickel catalysts based on porous nickel for methane steam reforming, Kinetics and Catalysis, 49(3) (2008) 449-456.

DOI: 10.1134/s0023158408030178

[10] G.I. Zorina, G.M. Kurunina, G.M. Butov, Study of Activity of Put Nickel Catalysts Modified with Mo, Cr, Al in Hydrogenation Reaction of Aldehydes, Oil Refining and Petrochemistry (Neftepererabotka i neftekhimiya), 1 (2014) 22-24.

[11] Yu.V. Popov, V.M. Mokhov, Patent 2519950 RF, (2014).

[12] О.B. Belskaya, R.M. Mironenko, V.A. Likholobov, Effect of Carbon Support Nature and Palladium Contenton the Properties of Pd/C Catalysts in Benzaldehyde Hydrogenation, Theoretical and Experimental Chemistry, 48(6) (2012) 359-363.

DOI: 10.1007/s11237-013-9285-y

[13] N.K. Eremenko, O.Yu. Podyacheva, Z.R. Ismagilov, I.I. Obraztsova, A.N. Eremenko, L.S. Kibis, D.A. Svintsitskiy, Highly dispersed palladium on carbon nanofibers for hydrogenation of nitrocompounds to amine, Eurasian Chemico-Technological Journal, 17(2) (2015) 101-103.

DOI: 10.18321/ectj200

[14] G.N. Bayeva, I.S. Mashkovsky, A.Yu. Stakheyev, N.S. Telegina, Specifics of Catalytic Properties of Deposited Palladium Nanoparticles in Heterogeneous Catalytic Reactions, Russian Chemistry Journal, 53(2) (2009) 68-78.

[15] H.A. Al-Wadhaf, Synthesis of palladium nanocatalysts on the base of silica gel for selective hydrogenation of phenyl acetylene, Catalysis in Industry, 15(2) (2015) 68-72.

DOI: 10.1134/s2070050415030022

[16] E. Gebauer-Henke, J. Farbotko, R. Touroude, J. Rynkowski, A comparative study of Ir/Ga2O3, Pt/Ga2O3, and Ru/Ga2O3 catalysts in selective hydrogenation of crotonaldehyde, Kinetics and Catalysis, 49(4) (2008) 599-606.

DOI: 10.1134/s0023158408040186

[17] G.M. Butov, G.I. Zorina, G.M. Kurunina, Hydrogenation of aromatic nitro compounds on the 1 % PT catalysts containing oxides of rare earth elements (REE), In: 21st International Congress of Chemical and Process Engineering, CHISA 2014 and 17th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, PRES 2014 21. (2014) 236-239.

DOI: 10.1016/j.energy.2014.07.094

[18] S.D. Kushch, N.S. Kuyunko. Effect of pretreatment of graphite oxide on activity of platinum supported catalysts in liquid-phase hydrogenation, Russian Chemical Bulletin. 66(4) (2017) 652-660.

DOI: 10.1007/s11172-017-1787-7

[19] I.I. Obraztsova, N.K. Eremenko, Yu.N. Velyakina, Reaction kinetics of nitrobenzene hydrogenation on a palladium catalyst supported on nanodiamonds, Kinetics and Catalysis, 49(3) (2008) 422-428.

DOI: 10.1134/s0023158408030130

[20] M.D. Novalikhina, O.V. Krylov, Development and Industrial Application of New Hydrogenation Catalysts, Kinetics and Catalysis, 42(1) (2001) 86–98.

[21] G. Suresh, et al., Tailoring the synthesis of supported Pd catalysts towards desired structure and size of metal particles, Physical Chemistry Chemical Physics, 12(18) (2010) 4833-4842.

DOI: 10.1039/b920464d

[22] V. Meille, Review on methods to deposit catalysts on structured surfaces, Applied Catalysis A: General, 315 (2006) 1-17.

DOI: 10.1016/j.apcata.2006.08.031

[23] Powder diffraction file (PDF-2). International centre for diffraction data. Release 2008 (Pennsylvania, USA).

[24] G.M. Butov, G.I. Zorina, G.M. Kurunina, Liquid-Phase Hydrogenation of Benzaldehyde on 1% Platinum Catalysts on Oxides of Rare-Earth Elements, Chemical Industry Today, 2 (2009) 3-6.

[25] G.M. Butov, G.I. Zorina, G.M. Kurunina, Study in the Effects of Ethyl Alcohol Concentration on the n-Nitrotoluole Hydrogenation Rate on Platinum Catalysts Deposited on Gadolinium Oxide. Bulletin of the Volgograd State Technical University (Series Chemistry and Technology of Element-Organic Monomers and Polymeric Materials): Inter-University Proceedings / VSTU, Volgograd, Issue. 6, No. 2 (50) (2009) 87-90.

DOI: 10.24891/re.17.10.1970

[26] G.I. Zorina, G.M. Kurunina, G.M. Butov, Hydrogenation of Aromatic Nitrocompounds with Various Functional Groups on 1%Pt Catalysts Containing REE Oxides, Bulletin of Karaganda State Industrial University, 2(2) (2013) 79-84.