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References (11)
-
V. Kozlov, G. Grek, M. Litvinenko, Yu. Litvinenko, A. Tambovtsev, A. Shmakov (2019)
Combustion of round hydrogen microjet in a concurrent flowJournal of Physics: Conference Series, 1404
-
V. Kozlov, G. Grek, O. Korobeinichev, Yu. Litvinenko, A. Shmakov (2016)
Combustion of hydrogen in round and plane microjets in transverse acoustic field at small Reynolds numbers as compared to propane combustion in the same conditions (Part I)International Journal of Hydrogen Energy, 41
-
(2017)
Experimental Study of Diffusion Combustion of a High - Velocity Round Jet of Hydrogen . Part 2 . Lifted Flame , Supersonic Flow -
V.V. Kozlov, G.R. Grek, O.P. Korobeinichev (2014)
Specific Features of Hydrogen Combustion in Round and Plane Microjets in a Transverse Acoustic Field and Comparisons with the Results of Propane Combustion under the Same ConditionsVestn. Novosib. Univ., Ser. Fiz., 9
-
(2013)
and Yu -
A. Agrawal, B. Albers, K. Alammar (2005)
EFFECTS OF BUOYANCY ON TRANSITIONAL HYDROGEN GAS-JET DIFFUSION FLAMESCombustion Science and Technology, 177
-
Munki Kim, Youngil Choi, Jeongseog Oh, Y. Yoon (2009)
Flame–vortex interaction and mixing behaviors of turbulent non-premixed jet flames under acoustic forcingCombustion and Flame, 156
-
Jeongseog Oh, P. Heo, Y. Yoon (2009)
Acoustic excitation effect on NOx reduction and flame stability in a lifted non-premixed turbulent hydrogen jet with coaxial airInternational Journal of Hydrogen Energy, 34
-
V.V. Kozlov, M.V. Litvinenko, Yu.A. Litvinenko (2021)
Combustion of Round Hydrogen Microjet in Concurrent FlowJournal of Engineering Thermophysics, 30
-
V. Kozlov, V. Vikhorev, G. Grek, Yu. Litvinenko, A. Shmakov (2018)
Diffusion Combustion of a Hydrogen Microjet at Variations of its Velocity Profile and Orientation of the Nozzle in the Field of GravitationCombustion Science and Technology, 191
-
A. Shmakov, V. Kozlov, M. Litvinenko, Yu. Litvinenko (2020)
Effect of inert and reactive gas additives to hydrogen and air on blow-off of flame at hydrogen release from microleakageInternational Journal of Hydrogen Energy
- Publisher
- Springer Journals
- Copyright
- Copyright © Pleiades Publishing, Ltd. 2023
- ISSN
- 0021-8944
- eISSN
- 1573-8620
- DOI
- 10.1134/s0021894423010017
- Publisher site
- See Article on Publisher Site
Abstract
Results of experimental studies of diffusion combustion of hydrogen microjets performed in recent years are presented. Specific features of the hydrogen flow structure and hydrogen combustion are studied for various shapes of the nozzle, jet exhaustion velocity, and gravitation. Hydrogen combustion in mixtures with other gases and periodic actions on microjets (in the case considered, by external acoustic disturbances, is also considered.
Journal
Journal of Applied Mechanics and Technical Physics – Springer Journals
Published: Feb 1, 2023
Keywords: jet flow; hydrogen microjet; diffusion combustion; hydrodynamic stability