On the influence of acoustic waves on combustion processes
DOI:
https://doi.org/10.33408/2519-237X.2017.1-1.26Keywords:
sound waves, acoustic fields, flame, combustion process, extinguishing of combustionAbstract
Purpose. The purpose of the paper is to present the brief survey of the state of research in the field of interaction of flame with acoustic waves.
Findings. The acoustic waves could be effectively utilized for controlling the combustion process for the purpose of increasing the fuel using efficiency and decreasing the pollutant emission.
Application field of research. The obtained results could be used for the development of alternative methods of fire control and extinguishing.
Conclusions. The presented researches showed the possibility of fire extinguishing by the use of acoustical action. However, the mechanism of extinguishing remains uncertain. Therefore, the substantial extent of theoretical and experimental researches is still needed. In particular, one can note the importance of experimental research on extinguishing of surface combustion.
References
Geidon A.G., Wolfguard H.G. Plamia, ego struktura, izluchenie i temperature [Flame, its structure, radiation and temperature]. Moscow, 1959. 333 p. (rus)
Krivorytov M.S., Golub V.V., Volodin V.V. Vlianie akusticheskih kolebaniy na difusionnoe gorenie metaya [Influence of acoustic vibrations on diffusion combustion of methane]. Pisma v ZhTF, 2012. Vol. 38, No. 10. Pp. 57-63. (rus)
Golub V.V., Baklanov D.I., Golovastov S.V., Ivanov K.V., Ivanov M.F., Kaverin A.D., Volodin V.V. Vozdejstvie akusticheskogo polya na razvitie plameni I perehod v detonaciyu [Impact of acoustic field on flame extension and conversion to detonation] TVT, 2010. Vol. 48. No. 6. Pp. 901-907. (rus)
Volodin V.V., Korobov A.E., Golovastov S.V., Golub V.V. Vlianie otrazhennyh akusticheskih vozmuschenij na uskorenie fronta plameni [Influence of reflected acoustic perturbations on acceleration of flame front]. Pisma v ZhTF, 2015. Vol. 41. No. 21. Pp.60-65. (rus)
Golub V.V., Ivanov M.F., Volodin V.V., Blagodatskih D.V., Golovastov S.V. Vlianie akusticheskih voln na zonu vosplamenenia I perehod gorenia v detonaciu [Influence of acoustic waves on ignition zone and conversion the combustion into detonation: experiment and calculations]. TVT, 2009. Vol. 47. No. 2. Pp. 315-317. (rus)
DARPA: Instant flame suppression. Harvard University, 2008. Рp. 1-23.
Kumgai S. Gorenie [Combustion]. Moscow: Chemistry, 1979. 256 p. (rus)
Beisner E., Wiggins N.D., Yue K.-B., Rosales V., Penny J., Lockridge J., Page R., Smith A., Guerrero L. Acoustic flame suppression mechanics in a microgravity environment. Microgravity Sci. Technol. 2015. Vol.27. Pp. 141-144.
Tanabe M., Yano T., Kuwahara T. Numerical simulation on the flame propagation in acoustic fields. Proceeding of the Combustion Institute, 2002. Vol. 29. Pp. 1817-1824.
Lieuwen T. Analysis of acoustic wave interactions with turbulent premixed flames. JASMA, 2008. Vol. 23. Pp. 371-375.
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Copyright (c) 2017 Il'yushonok A.V., Goncharenko I.A., Leshenyuk N.S., Kuleshov V.K., Tereshenkov V.I.CC «Attribution-NonCommercial» («Атрибуция — Некоммерческое использование») 4.0