laminar flame

美 [ˈlæmɪnər fleɪm]英 [ˈlæmɪnə fleɪm]
  • 层流火焰
laminar flamelaminar flame
  1. Effect of Catalytic Reforming Reaction on Laminar Flame Propagation Velocity

    催化重整反应对层流火焰传播速度的影响

  2. This method has been used to calculate a methane air premixed laminar flame and the numerical results proved that this new method is an accurate and high efficient one .

    并运用于对甲烷-空气的一维层流火焰计算,表明这种新方法易收敛,计算效率高。

  3. Study on the Structure of Singular Points of Laminar Flame System

    层焰系统奇点结构的研究

  4. Relationships between Flame Speed and Physical Chemical Parameters in Laminar Flame

    层流火焰速度与有关物理化学参数的关系

  5. New Method for Computing Premixed Planar Laminar Flame Speed

    一种计算预混层流平面火焰速度的新算法

  6. The laminar flame propagating speed under high pressure is quite different from the speed at usual pressure .

    高压环境下的火焰传播特性与常压条件下的火焰传播特性也有较大的不同。

  7. Effect of Hydrogen and Vapor on Laminar Flame Speeds of Methane / Air Mixtures

    氢气和水蒸气对甲烷/空气层流火焰传播速度的影响

  8. Study of Characteristic of Methane / Air Premixed Laminar Flame Interacted with Water Mists

    水雾作用下甲烷/空气层流预混火焰燃烧特性研究

  9. Kinetic simulation of PAHs formation in premixed ethane laminar flame

    乙烷预混火焰多环芳烃生成动力学模拟

  10. Experimental Investigation of Laminar Flame Speed for Methanol , Gasoline , Methanol / Gasoline-Air Mixtures

    甲醇、汽油和甲醇/汽油-空气层流火焰传播速度的实验研究

  11. The concentration distribution characteristics of intermediates from iso-octane / n-heptane blends laminar flame

    异辛烷/正庚烷混合燃料燃烧中间产物的浓度分布特性

  12. An experimental investigation of the laminar flame speeds of methanol , ethanol-air mixtures

    甲醇、乙醇&空气混合物层流火焰传播速度的实验研究

  13. The greater the equivalent pore diameter , the higher the flame propagation speed , especially for the mixture of higher laminar flame speed .

    多孔介质当量孔直径越大,或预混气层流火焰速度越高,则预混气火焰传播速度越高;

  14. This paper is focus on the measurement of laminar flame propagation velocity of premixed CH4 with air under two kinds of conditions through the counterflow experimental system .

    通过对冲火焰实验台测量了不同当量比下的甲烷与空气的预混气和经预催化后的预混气的层流火焰传播速度。

  15. It is shown that the distribution of the soot volume faction in the laminar flame is associated with the flame structure and the temperature of the flame .

    测量结果表明,该火焰中烟黑容积份额的分布同火焰结构和火焰温度都有关。

  16. Another observation is that the laminar flame exhibited wrinkles in μ g and this implies that μ g is also suitable to the study of other mechanisms inducing flow in flames .

    另外,层流火焰锋面在μg下明显折皱,这意味着微重力也适于研究火焰中其他诱发流动的机制。

  17. The laminar flame speeds of typical syngas / O2 / diluent mixtures measured in this study were shown to be accurately predicted by the syngas mechanism available in the literature .

    实验测得的典型合成气/氧气/稀释气体混合物的层流火焰传播速度与文献中机理的预测值吻合较好。

  18. The mechanism of soot oxidation relates with soot nanostructure , types of oxidants and reaction conditions . The widely used soot oxidation model is based on experimental oxidation data of high temperature graphite which are obtained from laminar flame reactor or shock tube .

    碳烟氧化机理与碳烟微纳米结构、氧化剂类型以及反应条件均有关系,而目前柴油机碳烟氧化广泛采用的模型,是依据层流燃烧反应器或激波管中高温石墨氧化试验数据提出的。

  19. Laminar Premixed Flame Propagation Velocity On-line Measurement by Image Processing Technique

    应用图像处理技术进行预混层流火焰传播速度的在线测量

  20. Reduction of Reaction Mechanism for Methane / air Laminar Premixed Flame using Principal Component Analysis

    利用主成分分析法简化甲烷/空气层流预混火焰的反应机理

  21. Radiative Inversion of Temperature Field of Non - Axisymmetric Laminar Free Flame

    非轴对称层流自由火焰温度场的辐射反演

  22. An Approximate Analytical Solution for the Concentration Field and the Shape of Laminar Diffusion Flame

    层流扩散火焰浓度场及火焰形状的近似理论解

  23. Simulation of Counter-Flow Laminar Premixed Flame with Lattice Boltzmann Method

    格子Boltzmann方法模拟层流对冲预混火焰

  24. Laminar premixed flame stretch characteristic influenced by co-flow water mist

    气体协流水雾作用下层流预混火焰拉伸规律

  25. The laminar diffusion flame with axial diffusion

    有轴向扩散的层流扩散火熖

  26. " Experimental and Computational Study of CH , CH , and OH in an Axisymmetric Laminar Diffusion Flame "

    对一种轴向对称分层扩散火焰中的CH、CH、及OH所做的实验和计算研究

  27. The variation of laminar non-premixed flame structure is studied in ways of changing equivalence ratio and inner-outer liquid velocity difference at last .

    最后通过改变流体内外速度差和当量比,对层流部分预混火焰结构的变化过程进行了研究。

  28. In this thesis , a two dimensional laminar pre-mixed flame model was employed to establish the relationship between flame temperature and wall temperature by scale analysis method .

    本文利用层流预混燃烧的火焰温度模型,采用量纲分析方法建立了火焰温度与壁面温度的关系。

  29. Laminar premixed flame is the natural basis of complicated combustion ; it has high academic meaning and applied value to study the laminar premixed flame structure .

    层流预混火焰作为复杂燃烧现象的自然基础,研究层流预混火焰结构具有较高的理论意义和应用价值。

  30. The fire was modeled by the mixture fraction combustion method with chemical reaction mechanisms neglected . Laminar diffusion flame theory with one-step irreversible fast reactions is assumed .

    对火的描述采用混合分数燃烧模型,模型中忽略燃烧过程中的反应机理,应用了层流扩散火焰理论和单步不可逆快速反应假定。