THE PROCESS OF SOLID CARBON DEPOSITION IN THE COURSE OF PYROLYSIS OF HYDROCARBON GASES

K.V. Simeiko; V.K. Bezuglyi; O.P. Kozhan; B.I. Bondarenko

K.V. Simeiko The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv
V.K. Bezuglyi The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv
O.P. Kozhan The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv
B.I. Bondarenko The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv

Keywords: pyrolysis, electrothermal fluidized bed, pyrocarbon, thermodynamical carbon potential

Abstract

The results of experimental research of the process of solid carbon deposition from heated mixture of hydrocarbon gases into the volume and to the surface of particles of quartz sand in the reactors of fluidized bed with the external heating and with heating due to current passing through the fluidized bed (electrothermal fluidized bed) are shown in the article. Calculations of dependence of carbon potential difference of gas mixture and solid carbon (graphite) on temperature and proportion mixture were carried out for theoretical interpretation of measurement outputs. Obtained values of carbon potential difference made it possible to give the quantitative measure of gas mixture distance from its equilibrium with the solid carbon. At the same time, the values of excessive carbon in gas mixture were calculated. Comparison of calculated highest possible quantity of carbon surplus in gas mixture and measured quantity of actually deposited solid carbon made it possible to estimate the efficiency of the process of solid carbon formation in each reactor applying the stated hydrocarbon mixture and processing conditions. It was found that the mixture based on propane is more efficient than the mixture based on methane. These results were obtained in laboratory reactor with the external heating. Bibl. 11, Fig. 2, Table 3.

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Author Biographies

K.V. Simeiko, The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv

Candidate of Technical Sciences

V.K. Bezuglyi, The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv

Candidate of Technical Sciences

O.P. Kozhan, The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv

Candidate of Technical Sciences

B.I. Bondarenko, The Gas Institute of the National Academy of Sciences of Ukraine, Kyiv

Academician of NAS of Ukraine, Doctor of Technical Sciences, Professor

References

Grishanin E.I. Antiterroristicheskoe toplivo dlja AJeS [Anti-terrorism fuel for NPP (nuclear Power Plant)].Atomnaja strategija [Nuclear strategy], 2007, (29), pp. 42–44. (Rus.)

Pat. 2387030 RF, G 21 C 3/28. Mikrotvjel legkovodnogo jadernogo reaktora [Microfuel of light-water nuclear reactor], S.M.Bashkircev, V.P.Deniskin, S.D.Kurbakov, I.I.Fedik, G.A.Filippov, A.S.Chernikov, D.V.Shestyh; Applicant and patent holder: Federal State Unitary Enterprise: Scientific-Research Institute of Scientific and Production Association «Luch» (RU), № 2008132176/06;appl. date: 04.08.2008, publ. 20.04.2010. (Rus.)

Bondarenko B., Bogomolov V., Kozhan A., Khovavko A., Nazarenko V., Simeyko K. Development of technological foundations for pure silicon production by carbothermic reduction, International Journal of Energy of Clean Environment, 2013, 14 (2–3), pp. 183–189.

Pat. 98747 UA, C 01 B 33/023 (2006/01). Sposіb oderzhannja visokochistogo kremnіju [The method for producing high-purity silicon], V.A.Bogomolov, B.I.Bondarenko, A.P.Kozhan, K.V.Simeiko; Applicant and patent holder: Gas institute of National Academy of Science of Ukraine. № a201109562; appl. date: 29.07.2011. Publ. 11.06.2012, Bull. № 11. (Ukr.)

Sіmeiko K.V. Doslіdzhennja mozhlivostі karbotermіchnogo vіdnovlennja kremnіju [Researh of the possibility of carbothermic reduction of silicon], Vіdnovljuval’na Jenergetika [Renewable Energy], 2014, (1), pp. 44–47. (Ukr.)

Skachkov V.A. Nauchno-tehnicheskie osnovy formirovanija funkcional’nyh svojstv kompozicionnyh materialov na osnove ugleroda [Scientific and technical basis for the formation of the functional properties of composite materials based on carbon] : Dissertation of the Doctor of Technical Sciences, Zaporozhye, 2013, 36 p. (Rus.)

Bogomolov V.O. Kozhan A.P., Bondarenko B.I., Khovavko O.I., Simeyko K.V. Kapsulirovanie kvarcevogo peska pirouglerodom v jelektrotermicheskom psevdoozhizhenom sloe [Research of the process of quartz sand encapsulation by pyrolytic carbon]. Jenergotehnologii i resursozberezhenie [Energy Technologies and Resource Saving], 2013, (5), pp. 36–40. (Rus.)

Simeyko K. Thermal influence of microdischarge plasma on the process of receiving of quartz sand encapsulated by pyrocarbon. Proccedings of the National Aviation University, 2014, (2), pp. 131–135.

Pat. 86131 UA, B 01 J 8/18 (2006.01), B 01 J 12/00. Reaktor dlja visokotemperaturnih procesіv [Reactor for high temperature processes],V.O.Bogomolov O.P.Kozhan, B.I.Bondarenko, K.V.Simeiko; Applicant and patent holder: Gas institute of National academy of science of Ukraine, № u201309320; applic. date: 25.07.2013; publ. date: 10.12.2013, Bull. № 23. (Ukr.)

Pat. 83147 UA (2013.01) B 01 J 8/18 (2006.01), B 01 J 12/00. Reaktor dlja visokotemperaturnih procesіv [Reactor for pyrolysis of gaseous hydrocarbons], V.O.Bogomolov O.P.Kozhan, B.I. Bondarenko, K.V.Simeiko; Applicant and patent holder: Gas institute of National academy of science of Ukraine, № u201303318; applic. date: 18.03.2013, publ. date: 27.08.2013, Bull. № 16. (Ukr.)

Bondarenko B.I., Soroka B.S., Bezuglyi V.K. Mezhfaznyj uglerodoobmen: termodinamika i processy perenosa. [Interphase carbon exchange : Thermodynamics and transport processes], Kiev : Naukova dumka, 2013, 223 p. (Rus.)

THE PROCESS OF SOLID CARBON DEPOSITION IN THE COURSE OF PYROLYSIS OF HYDROCARBON GASES

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