Email this article To the theory of ignition by hot surface
- Authors: Philippov А.А.1, Berlin А.А.1
-
Affiliations:
- N. N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences
- Issue: Vol 14, No 2 (2021)
- Pages: 3-7
- Section: Articles
- URL: https://journal-vniispk.ru/2305-9117/article/view/292043
- DOI: https://doi.org/10.30826/CE21140201
- ID: 292043
Cite item
Open Access
Access granted
Subscription Access
Abstract
The article comments on the results of research on the ignition of combustible gas by a heated body. In the classic work by Ya. B. Zel’dovich, using a steady ignition model, the main properties of the process were identified and the ignition criterion was obtained. Subsequent research mainly followed the path of numerical simulation using unsteady ignition models. The question remains open as to whether the ignition criterion obtained from the steady model can be applied to reproduce the experimental data. In the present article, the experiments, described in the S. Kumagai’s book, on the ignition of a propane–air mixture by a heated cylindrical wire were calculated using the criterion derived on the basis of the Zel’dovich’s steady model. But the experimental points fell on different curves corresponding to different wire diameters. Using the idea of stability theory that the appearance of an inflection point at the temperature profile results to ignition, the authors obtained a new criterion which correlates very well with the experimental data and enables one to get the parameters of the chemical reaction of ignition. The present authors believe that the criterion based on the inflection point will be useful for solving new problems of ignition and revise some old solutions.
About the authors
А. А. Philippov
N. N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences
Author for correspondence.
Email: 7987961@mail.ru
Doctor of Science in physics and mathematics
Russian FederationА. А. Berlin
N. N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences
Email: berlin@chph.ras.ru
Doctor of Science in chemistry, academician of RAS, scientific director
Russian FederationReferences
- Zel’dovich, Ya. B. 1939. Teoriya zazhiganiya nakalennoy poverkhnost’yu [The theory of ignition by an incandescent surface]. ZhETF 9(12):1530–1534.
- Philippov, A. A. 1985. Eksperimental’noe izuchenie zazhiganiya polimernykh materialov nakalennymi telami i vliyanie antipirenov [Experimental study of ignition of polymer materials by incandescent bodies and the effect of fire retardants]. Moscow: IChP USSR AS. PhD Diss.
- Kumagai, S. 1979. Gorenie [Combustion]. Moscow: IL. 255 p.
- Grober, H., S. Erk, and U. Grigull. 1955. Die Grundgesetze der Warmeubertragung. Berlin–Heidelberg: Springer. 450 р.
- Schlichting, H. 1965. Grenzschicht-Theorie. 5th ed. Verlag G. Braun. 736 p.
- Philippov, A. A. 1984. K voprosu podzhiganiya polimernykh materialov nakalennymi telami [On the issue of ignition of polymer materials with incandescent bodies]. Interuniversity Collection of Scientific Papers on Chemistry and Technology of Organoelement Intermediates and Polymers. Volgograd. 186.
- Zel’dovich, Y. B., G. I. Barenblatt, V. B. Librovich, and G. M. Makhviladze. 1980. Matematicheskaya teoriya
- goreniya i vzryva [Mathematical theory of combustion and explosion]. Moscow: Nauka. 478 p.
- Philippov, A. A., and N. A. Khalturinskiy. 2015. To the theory of ignition by a hot surface: Critical conditions for occurrence of explosive and avalanche-like processes. Zel’dovich Memorial: Accomplishments in the combustion science in the last decade. Eds. A. A. Borisov and S. M. Frolov. Moscow: TORUS PRESS. 2:89–94.
- Lin, C. C. 1955. The theory of hydrodynamic stability. Cambridge University Press. 155 p.
- Arnold, V. I. 1990. Teoriya katastrof [Catastrophe theory]. 3rd ed. Moscow: Nauka. 128 p.
- Frank-Kamenetskiy, D.A. 1967. Diffusiya i teploperedacha v khimicheskoy kinetike [Diffusion and heat transfer in chemical kinetics]. 2nd ed. Moscow: Nauka. 492 p.
- Merzhanov, A. G. 1968. Teoriya statsionarnogo gomogennogo goreniya kondensirovannykh veshchestv [The theory of stationary homogeneous combustion of condensed substances]. Chernogolovka: IChPh USSR AS. Preprint. 26 p.
- Averson, A. E. 1977. Teoriya zazhiganiya [Ignition theory]. Chernogolovka: IChPh USSR AS. Preprint. 36 p.
Supplementary files
