Oxidation of CO in microchannels of ceramic membranes modified with oxide catalytic coatings

被引：0

作者：

Tsodikov, MV ^{[1
]}

Laguntsov, NI ^{[1
]}

Magsumov, MI ^{[1
]}

Spiridonov, PV ^{[1
]}

Bukhtenko, OV ^{[1
]}

Zhdanova, TN ^{[1
]}

Teplyakov, VV ^{[1
]}

机构：

[1] Russian Acad Sci, AV Topchiev Inst Petrochem Synth, Moscow 119991, Russia

来源：

RUSSIAN CHEMICAL BULLETIN | 2004年 / 53卷 / 12期

基金：

俄罗斯基础研究基金会;

关键词：

ceramic membrane; cermet membrane; alkoxo method; catalytic coating; oxidation; carbon monoxide; kinetics; permeability; effective cross section of pores;

D O I：

10.1007/s11172-005-0182-y

中图分类号：

O6 [化学];

学科分类号：

0703 ;

摘要：

Ceramic and cermet membranes containing catalytic coatings in the internal volume of their channels were obtained. A relationship between the permeability and kinetic regularities of CO oxidation describing the transmembrane flow of gases was studied. The pre-exponential factor and apparent activation energy change as the loading of the membrane channels by the catalyst proceeds. The study of gas permeability through the membranes showed that the catalyst with a loose branched surface is distributed in the membrane microchannels. The reaction rate constant increases in parallel with an increase in the relative fraction of the catalyst surface. The CO oxidation rate is assumed to depend statistically on the number of active sites, which increases with filling of the membrane channels by the catalytic material.

引用

页码：2723 / 2729

页数：7

共 50 条

[11] CO selective oxidation using catalytic zeolite membranes
Medrano, J.A. (j.a.Medrano.Jimenez@tue.nl), 1600, Elsevier B.V., Netherlands (351):
[12] CO selective oxidation using catalytic zeolite membranes
Medrano, J. A.
Garofalo, A.
Donato, L.
Basile, F.
De Santo, M. P.
Gallucci, F.
Cofone, F.
Ciuchi, F.
Algieri, Catia
CHEMICAL ENGINEERING JOURNAL, 2018, 351 : 40 - 47
[13] Oxide coatings modified with transition and rare-earth metals on aluminum and their activity in CO oxidation
Tyrina, L. M.
Rudnev, V. S.
Ustinov, A. Yu.
Lukiyanchuk, I. V.
Nedozorov, P. M.
Chernykh, I. V.
Dmitrieva, E. E.
PROTECTION OF METALS AND PHYSICAL CHEMISTRY OF SURFACES, 2014, 50 (04) : 508 - 515
[14] Oxide coatings modified with transition and rare-earth metals on aluminum and their activity in CO oxidation
L. M. Tyrina
V. S. Rudnev
A. Yu. Ustinov
I. V. Lukiyanchuk
P. M. Nedozorov
I. V. Chernykh
E. E. Dmitrieva
Protection of Metals and Physical Chemistry of Surfaces, 2014, 50 : 508 - 515
[15] Catalytic dehydrogenation of cyclohexane using coated silica oxide ceramic membranes
Terry, PA
Anderson, M
Tejedor, I
JOURNAL OF POROUS MATERIALS, 1999, 6 (04) : 267 - 274
[16] Catalytic Dehydrogenation of Cyclohexane Using Coated Silica Oxide Ceramic Membranes
P.A. Terry
M. Anderson
I. Tejedor
Journal of Porous Materials, 1999, 6 : 267 - 274
[17] Plasma Electrolytic Oxide Coatings on Silumin for Oxidation CO
Borisov, V. A.
Sigaeva, S. S.
Anoshkina, E. A.
Ivanov, A. L.
Litvinov, P. V.
Vedruchenko, V. R.
Temerev, V. L.
Arbuzov, A. B.
Kuznetsov, A. A.
Mukhin, V. A.
Suprunov, G. I.
Chumychko, I. A.
Shlyapin, D. A.
Tsyrul'nikov, P. G.
OIL AND GAS ENGINEERING (OGE-2017), 2017, 1876
[18] Corrosion Tests of Oxide-Ceramic Coatings Formed by Microarc Oxidation
N. S. Chernyshov
Yu. A. Kuznetsov
M. A. Markov
A. V. Krasikov
A. D. Bykova
Refractories and Industrial Ceramics, 2020, 61 : 220 - 223
[19] Corrosion Tests of Oxide-Ceramic Coatings Formed by Microarc Oxidation
Chernyshov, N. S.
Kuznetsov, Yu. A.
Markov, M. A.
Krasikov, A. V.
Bykova, A. D.
REFRACTORIES AND INDUSTRIAL CERAMICS, 2020, 61 (02) : 220 - 223
[20] Titanium-supported Ce-, Zr-containing oxide coatings modified by platinum or nickel and copper oxides and their catalytic activity in CO oxidation
Rudnev, V. S.
Tyrina, L. M.
Lukiyanchuk, I. V.
Yarovaya, T. P.
Malyshev, I. V.
Ustinov, A. Yu
Nedozorov, P. M.
Kaidalova, T. A.
SURFACE & COATINGS TECHNOLOGY, 2011, 206 (2-3): : 417 - 424

← 1 2 3 4 5 →