Ignition and combustion of levitated magnesium particles in carbon dioxide

Benjamin Legrand , Evgeny Shafirovich , Michaël Marion , Christian Chauveau , Iskender Gökalp
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引用次数: 41

Abstract

This paper considers ignition and combustion of small (50–100 μm) single particles of magnesium and 50-50 magnesium-aluminum alloy in the atmosphere of carbon dioxide or its mixtures with argon. This investigation is of interest for both basic combustion science and applications to rocket engines, including those using Martian CO2 as an oxidizer, An experimental setup with an electrodynamic levitator inside a high-pressure chamber was employed. A CO2 laser was used for heating to ignition of the particles. The laser was switched off after ignition. The experiments were conducted with the oxidizer at room temperature over the range of pressures from 0.1 to 2 MPa. Effects of the CO2 concentration and pressure on the critical ignition conditions, ignition delay times, and burning times have been determined for Mg particles. The results clearly indicate that ignition of Mg in CO2 is controlled by chemical kinetics and that its combustion is controlled by diffusion in gas phase. Quantitative disagreement of the observed critical ignition pressures with previous experimental data on ignition of Mg disks in CO2 is explained by the differences in heat-loss mechanisms. The measured values of the burning rate correlate well with previous experimental results on combustion of 2-mm particles and with a quasi-steady model of Mg particle burning in CO2. In contrast to pure Mg and Al, particles of Mg−Al alloy did not ignite in CO2 under the present experimental conditions.

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悬浮镁颗粒在二氧化碳中的点火和燃烧
本文研究了50-100 μm镁和50-50镁铝合金在二氧化碳或其与氩气混合的气氛中的点火和燃烧。这项研究对基础燃烧科学和火箭发动机的应用都很有兴趣,包括那些使用火星二氧化碳作为氧化剂的火箭发动机。在高压室内采用了一个电动悬浮器的实验装置。用CO2激光器加热点燃颗粒。激光在点火后被关闭。实验是在室温下,在0.1 ~ 2mpa的压力范围内用氧化剂进行的。测定了CO2浓度和压力对Mg颗粒临界点火条件、点火延迟时间和燃烧时间的影响。结果表明,Mg在CO2中的着火受化学动力学控制,燃烧受气相扩散控制。在CO2中观察到的临界点火压力与先前的Mg盘点火实验数据的定量差异可以用热损失机制的差异来解释。燃烧速率的测量值与以往2-mm颗粒燃烧的实验结果以及Mg颗粒在CO2中燃烧的准稳态模型吻合良好。与纯Mg和纯Al相比,在本实验条件下,Mg−Al合金颗粒在CO2中不着火。
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