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对流速度对燃料液滴火焰形态及燃烧的影响 被引量:1

Convective Velocity Effect on Flame Shape and Combustion of Fuel Droplets
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摘要 考虑气相非稳态及液滴内部环流,建立运动液滴非稳态蒸发燃烧模型.模型采用动网格方法精确追踪液滴表面位置,采用守恒方程组更新液滴表面边界条件.根据单步全局化学反应机理,仿真研究正庚烷燃料液滴在不同对流速度下的火焰形态及燃烧.结果表明:运动液滴内部环流使液滴内部低温区向环流中心移动.当液滴运动速度大于某临界值后,火焰形态由包覆火焰转变为尾迹火焰.包覆火焰的富燃区范围、高温区范围及燃烧速率明显较尾迹火焰大;包覆火焰的液滴表面温度及表面蒸发流率分布也明显不同于尾迹火焰. Considering gas phase unsteadiness and droplet internal reeirculation, we developed an unsteady evaporation and combustion model for moving droplets. It adopts dynamic grid method tracking droplet interface location and conservation equations updating interface boundary conditions. Based on one step global chemical reaction, flame shape and combustion characteristics of n- heptance droplets at different convective velocity are simulated and analyzed. It shows that internal recireulation of moving droplet I promotes low temperature area moving to the center of recirculation. Envelop flame translates into wake flame as convective velocity exceeding a critical value. Area of fuel rich and high temperature region and combustion rate at envelop flame are higher than those of wake flames remarkably. Droplet surface temperature and evaporation rate distribution at an envelop flame are different from those of wake flame obviously as well.
作者 何博 丰松江 聂万胜
机构地区 解放军装备学院研究生一队 解放军装备学院航天装备系
出处 《计算物理》 CSCD 北大核心 2013年第2期194-202,共9页 Chinese Journal of Computational Physics
基金 国家自然科学基金(51076168)资助项目
关键词 运动液滴 内部环流 动网格 火焰形态 燃烧速率 moving droplet internal recirculation dynamic mesh flame shape combustion rate
分类号 TK421 [动力工程及工程热物理—动力机械及工程]
  • 相关文献

参考文献17

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共引文献28

同被引文献20

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计算物理
2013年 第2期

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