Influence of Flame Suppressants on the Level of Nonequilibrium Radiation during Ignition of Hydrogen-Oxygen Mixtures behind Shock Waves

Eremin A. V.; Korshunova M. R.; Mikheyeva E. Yu.

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Influence of Flame Suppressants on the Level of Nonequilibrium Radiation during Ignition of Hydrogen-Oxygen Mixtures behind Shock Waves

机译：火焰抑制剂对冲击波背后氢氧混合物点火过程中非挤压辐射水平的影响

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摘要

The nonequilibrium radiation occurring during ignition of a 10% stoichiometric hydrogen-oxygen mixture with flame suppressant additives diluted with argon behind shock waves was studied. Instead of the expected reduction in the super-equilibrium radiation of active radicals in the ignition zone, the addition of halogenated flame suppressants led to increased UV radiation around wavelengths of 220 and 411 nm characteristic of the HO2 radical and H2O2 and H2O molecules. Therefore, the hypothesis about the suppression mechanism due to quenching of the excited HO2* radical is not confirmed, and the effect of flame-suppressing additives is due to the binding of H and O atoms.

机译：研究了在10％化学计量的氢气 - 氧混合物点火期间发生的非预测辐射，与氩气背后的氩气稀释的火焰抑制剂添加剂。代替点火区中的主动自由基的超平衡辐射的预期降低，添加卤化火焰抑制剂导致HO2基团和H2O2和H2O分子的220和411nm特征的波长围绕的UV辐射增加。因此，没有证实抑制由于淬火的HO2 *自由基引起的抑制机制的假设，并且火焰抑制添加剂的作用是由于H和O原子的结合。

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《Combustion, Explosion, and Shock Waves》 |2019年第1期|共4页
作者
Eremin A. V.; Korshunova M. R.; Mikheyeva E. Yu.;
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作者单位

Russian Acad Sci Joint Inst High Temp Moscow 125412 Russia;

Russian Acad Sci Joint Inst High Temp Moscow 125412 Russia;

Russian Acad Sci Joint Inst High Temp Moscow 125412 Russia;

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原文格式 PDF
正文语种 eng
中图分类爆炸物工业、火柴工业;
关键词
hydrogen ignition; suppression; explosion safety; nonequilibrium radiation;

机译：氢气点火;抑制;爆炸安全;非纤维辐射;

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1. Influence of Flame Suppressants on the Level of Nonequilibrium Radiation during Ignition of Hydrogen-Oxygen Mixtures behind Shock Waves [J] . Eremin A. V., Korshunova M. R., Mikheyeva E. Yu. Combustion, Explosion, and Shock Waves . 2019,第1期

机译：火焰抑制剂对冲击波背后氢氧混合物点火过程中非挤压辐射水平的影响
2. Vibrational nonequilibrium and reaction heat effect in diluted hydrogen-oxygen mixtures behind reflected shock waves at 1000 < T < 1300 K [J] . International journal of hydrogen energy . 2020,第4期

机译：1000
3. IGNITION OF HYDROGEN-OXYGEN MIXTURES BEHIND THE INCIDENT SHOCK WAVE FRONT [J] . V. A. Pavlov, G. Ya. Gerasimov Journal of engineering physics and thermophysics . 2016,第3期

机译：爆炸声波波前的氢氧混合物点火
4. COMPUTATIONAL MODEL OF NONEQUILIBRIUM RADIATION OF SHOCK WAVES IN CO_2-N_2 AND N_2-CH_4 GAS MIXTURES [C] . Alexey S. Dikalyuk, Sergey T. Surzhikov International workshop on radiation of high temperature gases in atmospheric entry . 2011

机译：CO_2-N_2和N_2-CH_4混合气中非均匀波辐射的计算模型
5. AN INVESTIGATION OF PLASMA JET IGNITION AND FLAME JET IGNITION OF LEAN FUEL-AIR MIXTURES (SPARK) [D] . MITTINTI, DURGA NAGESWARA RAO 1985

机译：稀薄空气混合物（火花）的等离子点火和火焰喷射点火的研究
6. Control of Early Flame Kernel Growth by Multi-Wavelength Laser Pulses for Enhanced Ignition [O] . Ciprian Dumitrache, Rachel VanOsdol, Christopher M. Limbach, -1

机译：多波长激光脉冲控制早期火焰核生长以增强点火
7. Chemical Reaction in a Shock Wave. I. The Ignition Delay of a Hydrogen-Oxygen Mixture in a Shock Tube [O] . Shiro Fujimoto 1963

机译：在冲击波中的化学反应。 I.氢氧混合物在冲击管中的点火延迟
8. FLAME PROPAGATION UNDER CONDITIONS OF AN IGNITION PENINSULA OF HYDROGEN-OXYGEN MIXTURES [R] . V. Ya. Basevich, S. M. Kogarko 1965

机译：氢氧混合物点火半岛条件下的火焰传播

Influence of Flame Suppressants on the Level of Nonequilibrium Radiation during Ignition of Hydrogen-Oxygen Mixtures behind Shock Waves

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