Initiation of Combustion in a Supersonic Hydrogen-Air Mixture Flow by CO{sub}2-Laser Radiation

B. I. Lukhovitskii; A. M. Starik; N. S. Titova

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Initiation of Combustion in a Supersonic Hydrogen-Air Mixture Flow by CO{sub}2-Laser Radiation

机译：CO {sub} 2-激光辐射在超音速氢气-空气混合流中燃烧的引发

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Features of the ignition kinetics of an H{sub}2/air mixture in the supersonic flow behind an inclined shock front are analyzed when asymmetric vibrations of a small amount (< 1 %) of O{sub}3 molecules specially introduced into the initial mixture are excited by 9.7 μm wavelength radiation. It is shown that this radiation leads to intensification of the chain reactions and makes it possible to organize combustion at small distances from the front (of the order of 1 m) of even relatively weak shocks at small values of the laser radiation energies absorbed by the gas. This method of initiating combustion in a supersonic flow is 10-100 times more efficient than the thermal method.

机译：当专门引入初始阶段的少量（<1％）O {sub} 3分子的不对称振动时，分析了倾斜冲击前沿后面的超音速流中H {sub} 2 /空气混合物的点火动力学特征。混合物被9.7μm波长的辐射激发。结果表明，这种辐射导致链反应的加剧，并且有可能在距离激光束吸收的激光辐射能量很小的情况下，在距离相对较弱的冲击的正面（1 m量级）很小的距离内组织燃烧。加油站。这种以超音速流动引发燃烧的方法比热方法的效率高10-100倍。

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《Fluid Dynamics》 |2005年第2期|共10页
作者
B. I. Lukhovitskii; A. M. Starik; N. S. Titova;
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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
Ignition; Supersonic flow; Resonant radiation; Chain reactions;

机译：点火;超音速流动;共振辐射;链反应;

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专利

1. Initiation of Combustion in a Supersonic Hydrogen-Air Mixture Flow by CO{sub}2-Laser Radiation [J] . B. I. Lukhovitskii, A. M. Starik, N. S. Titova Fluid Dynamics . 2005,第2期

机译：CO {sub} 2-激光辐射在超音速氢气-空气混合流中燃烧的引发
2. Initiation of combustion of a hydrogen-air mixture with ozone impurity by UV laser radiation [J] . Starik AM, Kuleshov PS, Titova NS Technical physics . 2008,第2期

机译：通过紫外线激光辐射引发氢空气混合物与臭氧杂质的燃烧
3. Initiation of Combustion of a CH4—O2 Mixture in a Supersonic Flow with Excitation of O2 Molecules by an Electric Discharge [J] . A. M. Starik, B. I. Lukhovitskii, N. S. Titova Combustion, Explosion, and Shock Waves . 2008,第3期

机译：超音速流中CH4-O2混合物的燃烧在通过放电激发O2分子的情况下开始
4. Numerical simulation of combustion initiation in hydrogen-air mixture in supersonic flow with energy impact [C] . I. A. Bedarev, O. S. Vankova, M. A. Goldfeld, Conference on High-Energy Processes in Condensed Matter . 2017

机译：超声波流量中燃烧燃烧引发的数值模拟能量冲击
5. An additive approach to supersonic combustion: Use of silane in hydrogen-air systems and consideration of pyrophoric metals [D] . Papas, Paul 1994

机译：超音速燃烧的附加方法：在氢-空气系统中使用硅烷和考虑自燃金属
6. Application of a catalytic combustion sensor (Pellistor) for the monitoring of the explosiveness of a hydrogen-air mixture in the upper explosive limit range [O] . M. Krawczyk, J. Namiesnik 2003

机译：催化燃烧传感器（Pellistor）在爆炸上限内用于监测氢气混合物的爆炸性的应用
7. Initiation of kerosene combustion in supersonic air flow by a package of gas-dynamic pulses [O] . P. K. Tretyakov 2019

机译：一包气动脉冲在超音速空气流中启动煤油燃烧
8. An analysis of internal supersonic flows with diffusion, dissipation and hydrogen-air combustion [R] . Dash, S. 1970

机译：内部超音速流动的扩散，耗散和氢气燃烧分析

Initiation of Combustion in a Supersonic Hydrogen-Air Mixture Flow by CO{sub}2-Laser Radiation

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