Micronozzle Chocking under Diffusion Combustion of Hydrogen
The results of experimental investigations of the micronozzle-chocking phenomenon under diffusion combustion of a hydrogen microjet at a high outflow velocity in the case of ignition of hydrogen near the nozzle cut are presented. It is found that the cause of micronozzle chocking is the heating of t...
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| Published in | Doklady. a journal of the Russian Academy of Sciences. Physics Vol. 63; no. 5; pp. 193 - 198 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Moscow
Pleiades Publishing
01.05.2018
Springer Nature B.V |
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| Abstract | The results of experimental investigations of the micronozzle-chocking phenomenon under diffusion combustion of a hydrogen microjet at a high outflow velocity in the case of ignition of hydrogen near the nozzle cut are presented. It is found that the cause of micronozzle chocking is the heating of the nozzle walls from the flame-neck region retained up to transonic velocities and preventing nozzle cooling and the passage of the hydrogen jet to the supersonic-flow velocity. It is shown that hydrogen ignition far from the nozzle cut with a developed hydrogen supersonic flow into the flooded space leads to the disappearance of the flameneck region, flame detachment from the nozzle cut, and, correspondingly, termination of the nozzle heating and the possibility of the microjet coming out at the supersonic-flow velocity for the hydrogen jet. It is established that the flame-neck region is a stabilizing factor for the subsonic combustion of a hydrogen microjet up to transonic velocities. In the second case, the presence of supersonic cells stabilizes the supersonic diffusion combustion of the hydrogen microjet. |
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| AbstractList | The results of experimental investigations of the micronozzle-chocking phenomenon under diffusion combustion of a hydrogen microjet at a high outflow velocity in the case of ignition of hydrogen near the nozzle cut are presented. It is found that the cause of micronozzle chocking is the heating of the nozzle walls from the flame-neck region retained up to transonic velocities and preventing nozzle cooling and the passage of the hydrogen jet to the supersonic-flow velocity. It is shown that hydrogen ignition far from the nozzle cut with a developed hydrogen supersonic flow into the flooded space leads to the disappearance of the flameneck region, flame detachment from the nozzle cut, and, correspondingly, termination of the nozzle heating and the possibility of the microjet coming out at the supersonic-flow velocity for the hydrogen jet. It is established that the flame-neck region is a stabilizing factor for the subsonic combustion of a hydrogen microjet up to transonic velocities. In the second case, the presence of supersonic cells stabilizes the supersonic diffusion combustion of the hydrogen microjet. |
| Author | Shmakov, A. G. Kozlov, V. V. Grek, G. R. Kozlov, G. V. Litvinenko, Yu. A. |
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| References | KozlovV. V.GrekG. R.KatasonovM. M.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.Dokl. Phys201459125962014DokPh..59..596K10.1134/S1028335814120064 GrekG. R.KatasonovM. M.KozlovV. V.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.Vestnik NGU. Seriya: Fizika20138398 GrekG. R.KatasonovM. M.KozlovG. V.LitvinenkoM. V.Vestnik NGU. Seriya: Fizika201510242 KrivokorytovM. S.GolubV. V.VolodinV. V.Pis’ma Zh. Tekh. Fiz2013381057 GrekG. R.KozlovV. V.LitvinenkoYu. A.Textbook2012gos. un-t., NovosibirskNovosib. SuzukiM.IkuraS.MasudaW.Proc. 11th Asian Symp. on Visualization2011 KozlovV. V.GrekG. R.KatasonovM. M.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.J. Flow Control, Measurement & Visualization20133110810.4236/jfcmv.2013.13014 KozlovV. V.GrekG. R.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.Intern. J. Hydrogen Energy201641442023110.1016/j.ijhydene.2016.07.276 KozlovV. V.GrekG. R.LitvinenkoYu. A.Visualization of Conventional and Combusting Subsonic Jet Instabilities2015DordrechtSpringer-book ShmakovA. G.GrekG. R.KozlovV. V.LitvinenkoYu. A.Intern. J. Hydrogen Energy201742241591310.1016/j.ijhydene.2017.05.091 LitvinenkoYu. A.GrekG. R.KozlovV. V.KorobeinichevO. P.ShmakovA. G.Vestnik NGU. Seriya: Fizika201510252 KozlovV. V.GrekG. R.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.Vestnik NGU. Seriya: Fizika20149179 ShmakovA. G.GrekG. R.KozlovV. V.KorobeinichevO. P.LitvinenkoYu. A.Vestnik NGU. Seriya: Fizika201510227 KozlovV. V.GrekG. R.KorobeinichevO. P.LitvinenkoYu. A.ShmakovA. G.Intern. J. Hydrogen Energy201641442024010.1016/j.ijhydene.2016.09.039 A. G. Shmakov (233_CR9) 2015; 10 M. Suzuki (233_CR2) 2011 G. R. Grek (233_CR12) 2015; 10 V. V. Kozlov (233_CR7) 2015 V. V. Kozlov (233_CR3) 2013; 3 G. R. Grek (233_CR5) 2013; 8 G. R. Grek (233_CR1) 2012 V. V. Kozlov (233_CR13) 2016; 41 V. V. Kozlov (233_CR8) 2014; 9 V. V. Kozlov (233_CR10) 2016; 41 M. S. Krivokorytov (233_CR4) 2013; 38 V. V. Kozlov (233_CR6) 2014; 59 Yu. A. Litvinenko (233_CR11) 2015; 10 A. G. Shmakov (233_CR14) 2017; 42 |
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| SubjectTerms | Classical Mechanics Diffusion Flow velocity Heating Hydrogen Mathematical and Computational Physics Mechanics Nozzle walls Nozzles Outflow Physics Physics and Astronomy Spontaneous combustion Subsonic combustion Supersonic flow Theoretical |
| Title | Micronozzle Chocking under Diffusion Combustion of Hydrogen |
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