旋流燃烧

  • 网络swirling combustion
旋流燃烧旋流燃烧
  1. 几种二阶矩模型模拟湍流旋流燃烧的比较

    Comparison of various second-order moment models in modeling turbulent swirling combustion

  2. 旋流燃烧效率的试验研究

    Experimental research on swirling combustion efficiency

  3. 旋流燃烧室内湍流燃烧的PDA实验研究

    Experimental study of turbulent combustion in a swirl combustor using PDA

  4. 对涉及多旋流燃烧室稳定燃烧的贫油熄火征兆现象进行了CFD数值研究。

    The lean blow out symptoms in combustion chamber with double swirling were studied .

  5. 湍流旋流燃烧瞬时速度PDF的实验测量

    Measurement of PDF for the instantaneous gas velocity in swirling turbulent combustion

  6. 采用二维粒子图像测速技术(PIV)测量了旋流燃烧室火焰筒内冷态速度场。

    The velocity field inside the combustor liner is measured with two-dimensional particle image velocimetry .

  7. 本文应用三维激光粒子动态分析仪(PDA)对分级进风旋流燃烧室内的湍流燃烧过程进行了实验测量。

    The Three-Dimension-Laser Particle Dynamic Analyzer ( PDA ) was utilized to conduct experimental investigation of the turbulent combustion in a swirl combustor with staged air injection .

  8. 应用完整形式的改进代数Reynolds应力模型对旋流燃烧室内两股同轴旋转射流的湍流流动进行了数值模拟。

    A full form of the improved algebraic Reynolds stress model ( ASM ) is employed to simulate swirling turbulent flows in a swirl combustor with two coaxial jets in this paper .

  9. 本文建立了采用分级进风的旋流燃烧室实验台,实现了用三维激光粒子动态分析仪(PDA)测最湍流旋流燃烧的热态瞬时速度场。

    A test facility for swirl combustor with staged air injection was fabricated and set up . The Three Dimension-Laser Particle Dynamic Analyzer ( PDA ) was utilized to measure the instantaneous gas velocity of the swirling turbulent reacting flow .

  10. 采用三维轴对称RNGkε湍流模型模拟了微型燃气轮机旋流燃烧室内的等温流场,用粒子测速仪(PIV)测量了旋流燃烧室内不同截面位置的速度矢量分布。

    The isothermal flow field in a cyclone combustion chamber is being modeled by a 3-dimensional axis-symmetric RNG k - ε turbulent flow model . A particle image velocimeter ( PIV ) was use for measuring the velocity vector distribution in various cross-sections of a cyclone combustion chamber .

  11. 天然气半引射旋流燃烧装置的应用研究

    Exploration on the Application of Half-Injection Swirl-Flow Natural Gas Burning Installation

  12. 旋流燃烧室内三维等温流场研究

    Investigation on the three-dimensional isothermal flow field in a swirl combustion chamber

  13. 燃料中心进入的旋流燃烧数值模拟

    Numerical Simulation of Swirling Diffusion Flame with Central Fuel Inlet

  14. 侧置气门汽油机侧旋流燃烧室的试验研究

    Research on the Side-Swirl Combustion Chamber in Side-Valve Gasoline Engine

  15. 旋流燃烧室内多组分气体湍流混合的数值模拟

    Numerical simulation of turbulent mixing of multi-species gas in a swirl combustor

  16. 旋流燃烧锅炉炉内温度场优化的数值研究

    Optimization of Temperature Field in the Furnace of Boiler with Swirling Burners

  17. 旋流燃烧室内分级进风对燃烧污染物生成的影响

    Effects of Staged Air Injection on Combustion Pollutant Formation in a Swirl Combustor

  18. 三元旋流燃烧室温度场的实验研究

    Experimental investigation on temperature fields in three-dimensional swirling combustor

  19. 旋流燃烧室内颗粒运动的数值模拟

    Simulation of particle motion in a swirl combustor

  20. 一次气与二次气流量比对三元旋流燃烧室头部温度场的影响

    Effect of Flow-Rate Ratio on the Primary Zone Temperature Distribution in Three-Dimensional Swirling Combustor

  21. 双旋流燃烧室冷态流场试验研究

    Cold flow measurements for a double swirler combustor

  22. 旋流燃烧室内气体-颗粒两相湍流流动的数值模拟

    Simulation of gas-particle turbulent flow in Swirl Combustor

  23. 低旋流燃烧和流动特性数值模拟研究旋流式气液分离器内流场的数值模拟

    Numerical simulation of low-swirl combustion and flow field

  24. 旋流燃烧室内冷态和热态流场的三维数值模拟分析

    3-D Numerical Simulation Analysis of the Cold and Hot Flow Fields in a Swirl Combination Chamber

  25. 而多旋流燃烧室是当前航空燃气轮机燃烧室设计采用的主要燃烧方式。

    The multi-swirling dump combustion is the main combustion mode which gas turbine combustion design usually use .

  26. 应用该模型对旋流燃烧室内的丙烷湍流燃烧进行了数值模拟。

    Experimental study on the turbulent flow in a swirl combustion chamber by using particle image velocimetry ;

  27. 该模型用同轴射流旋流燃烧室算例进行了验证,计算结果和实验值相吻合,表明适用于旋流流场的计算。

    The calculation results are coincident with the experimental data and it shows that the model is applicable to swirling flow .

  28. 在模拟试验炉上对传统底部向上直流燃烧方式和新的旋流燃烧方式进行了热态对比试验。

    A compare experiment in hot-state has been made between traditional bottom up direct combustion method and new swirl combustion method at testing furnace .

  29. 该发动机主体结构为一内置有旋流燃烧室的高速旋转无叶无塞内燃转子,能融压气、燃烧和排气做功于一体。

    The engines main body structure is an internal-combustion rotor , which has no blade and no piston but has an internal revolved stream combustor .

  30. 在此基础上,根据贫油熄火理论,结合他人的试验研究,对二级旋流燃烧的贫油熄火征兆进行了数值预测。

    On this basis , according to theory of lean blowout , and taking other experimental research as references , flame failure symptom was numerically predicted .