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中文核心期刊

模型超燃冲压发动机内着火过程分析

On the ignition process in a model scramjet combustor

  • 摘要: 在燃烧室入口来流为Ma=2.64、T0=1483K、P0=1.65MPa、T=724K、P=76.3kPa条件下,采用高速摄影和连续激光高速纹影对等截面型开窗燃烧室内氢气射流自燃过程、火花塞点燃氢气过程和引导氢气火焰点燃煤油过程进行了观测,获得了燃烧室内着火过程中火焰和流场波系结构的动态演化过程;观察到了初始火焰区首先起始于燃烧室下游,并逆流传播实现发动机着火的过程;分析表明燃料能否着火、以及着火位置与燃料着火时间、燃烧室流速和火焰稳定器安装情况相关,多火焰稳定区延长了燃料驻留时间,使燃料更容易着火。关键词 超燃冲压发动机,点火过程,火焰传播,火焰稳定器

     

    Abstract: Three processes of ignition were investigated by usinghigh speed camera and schlieren system with the inflow condition ofMa=2.64, T_0=1483K, P_0=1.65MPa, T=724K, andP=76.3kPa, which are autoignition ofhydrogen injection, the spark igniting hydrogen and the pilot flame ignitingthe kerosene in a constant area model scramjet combustor. The flamepropagation and shocktrains evolution in the combusotr was gained, whichrevealed that the flame originated from the downstream of the combustor,then propagated to upstream untill the whole combustor was ignited. Theresults also showed that flow velocity of combustor and installation schemeof flame holders will extremely affect the ignition delay or occurringposition of ignition. Furthermore, the fuel residence time will be increasedby using more cavity flameholders, which was benificial to fuelautoignition.

     

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