Investigation of the Mechanism of Interaction of the Hydrocarbon Flame with an Electric Field
- Authors: Vlasov P.A.1, Pankrat’eva I.L.2, Polyanskii V.A.2
-
Affiliations:
- Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences
- Moscow State University, Institute of Mechanics,
- Issue: No 4 (2023)
- Pages: 108-116
- Section: Articles
- URL: https://journals.rcsi.science/1024-7084/article/view/135104
- DOI: https://doi.org/10.31857/S1024708423600136
- EDN: https://elibrary.ru/WLTKKG
- ID: 135104
Cite item
Abstract
One of the possible mechanisms of the interaction of a bounded combustion region (flame) with an applied electric field is considered. The investigation is based on application of the electrohydrodynamics (EHD) methods to describe chemically reacting multicomponent nonequilibrium partially ionized gas mixtures. It is shown that zones of space electric charge are formed in the neighborhood of the flame boundaries under certain conditions. These zones can be affected by the electric field. The nature of modification of these zones under the influence of the electric field is investigated.
About the authors
P. A. Vlasov
Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences
Email: ilpan@imec.msu.ru
Moscow, Russia
I. L. Pankrat’eva
Moscow State University, Institute of Mechanics,
Email: ilpan@imec.msu.ru
Moscow, Russia
V. A. Polyanskii
Moscow State University, Institute of Mechanics,
Author for correspondence.
Email: ilpan@imec.msu.ru
Moscow, Russia
References
- Jianfeng Fang, Xiaomin Wu, Hao Duan, Chao Li, Zhongquan Gao. Effects of electrode configurations on the combustion characteristics of premixed methane-air flames // J. Thermal Science and Technology. 2015. V. 10 (1). https://doi.org/10.1299/jtst.2015jtst0020
- Tao Xu, Qinglin Chen, Bingjian Zhang, Shushen Lu, Dongchuan Mo, Zhengguo Zhang, Xuenong Gao. Effects of electric field on micro-scale flame properties of biobutanol fuel // Nature. Scientific Reports. 2016. 16 September. https://doi.org/10.1038/srep32938
- Park D.G., Chung S., Cha M. Visualization of ionic wind in laminar jet flames. Combust. Flame. 2017. V. 184 . P. 246–248. https://doi.org/10.1088/1361-6463/aa94bb
- Ватажин А.Б., Лихтер В.А., Сепп В.А., Шульгин В.И. Влияние электрического поля на эмиссию окислов азота и структуру диффузионного ламинарного пропанового пламени // Изв. РАН. МЖГ. 1995. № 2. С. 13–23.
- Karnani S., Dunn-Rankin D. Detailed characterization of DC electric field effects on small non-premixed flames. // Combust. Flame. 2015. V. 162 (7). P. 2865–2872.
- Власов П.А., Панкратьева И.Л., Полянский В.А. Исследование ЭГД-структуры течения высокотемпературной газовой смеси с неоднородным источником заряженных частиц. // Изв. РАН. МЖГ. 2022. № 6. С. 97–110.
- Calcote H.F. Mechanisms for the formation of ions in flames. // Combust. Flame. 1957. V. 1(3). P. 385–403.
- Lawton J., Weinberg F.J. Electrical aspects of combustion. Clarendon Press. 1969. 355 p.
- Гогосов В.В., Полянский В.А., Семенова И.П., Якубенко А.Е. Уравнения электродинамики и коэффициенты переноса в сильном электрическом поле. // Изв. АН СССР. МЖГ. 1969. № 2. С. 31–45.