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TVT, 2000, Volume 38, Issue 1, Pages 37–40 (Mi tvt2015)  

This article is cited in 4 scientific papers (total in 4 papers)

Thermophysical Properties of Materials

Dissociation of $\mathrm{CO}_2$ molecules in a wide temperature range

L. B. Ibragimovaa, G. D. Smekhova, O. P. Shatalova, A. V. Ereminb, V. V. Shumovab

a Institute of Mechanics, M. V. Lomonosov Moscow State University
b High Energy Density Research Center of RAS, Moscow

Abstract: Expressions are derived for the dissociation rate constants of molecules of carbon dioxide in the temperature range from $300$ to $40000$ K under both thermally equilibrium and nonequilibrium conditions. Under nonequilibrium conditions, the rate constants are represented as a two-temperature dependence (on the gas temperature $T$ and on the unified temperature $T_V$ of all vibrational modes of $\mathrm{CO}_2$) and as a one-temperature dependence in which averaged vibrational nonequilibrium is included.

Full text: PDF file (1101 kB)

English version:
High Temperature, 2000, 38:1, 33–36

UDC: 541.127
Received: 16.11.1998

Citation: L. B. Ibragimova, G. D. Smekhov, O. P. Shatalov, A. V. Eremin, V. V. Shumova, “Dissociation of $\mathrm{CO}_2$ molecules in a wide temperature range”, TVT, 38:1 (2000), 37–40; High Temperature, 38:1 (2000), 33–36

Citation in format AMSBIB
\Bibitem{IbrSmeSha00}
\by L.~B.~Ibragimova, G.~D.~Smekhov, O.~P.~Shatalov, A.~V.~Eremin, V.~V.~Shumova
\paper Dissociation of $\mathrm{CO}_2$ molecules in a wide temperature range
\jour TVT
\yr 2000
\vol 38
\issue 1
\pages 37--40
\mathnet{http://mi.mathnet.ru/tvt2015}
\transl
\jour High Temperature
\yr 2000
\vol 38
\issue 1
\pages 33--36
\crossref{https://doi.org/10.1007/BF02755563}


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    2. Liang W., Cao Zh., He G., Caro J., Jiang H., “Oxygen Transport Membrane For Thermochemical Conversion of Water and Carbon Dioxide Into Synthesis Gas”, ACS Sustain. Chem. Eng., 5:10 (2017), 8657–8662  crossref  isi  scopus
    3. Kustova E., Savelev A., Armenise I., “State-Resolved Dissociation and Exchange Reactions in Co2 Flows”, J. Phys. Chem. A, 123:49, SI (2019), 10529–10542  crossref  isi
    4. Chintala V., Benaerjee D., Ghodke P.K., Porpatham E., “Hydrogen Rich Exhaust Gas Recirculation (H2Egr) For Performance Improvement and Emissions Reduction of a Compression Ignition Engine”, Int. J. Hydrog. Energy, 44:33 (2019), 18545–18558  crossref  isi
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