Numerical and Experimental Study of Flow Dynamics in a Gas Turbine Combustor with Swirl Cup

机译：旋流杯燃气轮机燃烧器中流动动力学的数值和实验研究

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In arbitrary curvilinear coordinates, numerical investigations of 3D non-reacting and two-phase reacting integrated flow fields for an annular combustor with the swirl cup are carried out. RNG k-ε model, EBU-Arrhenius turbulent combustion model and Six-flux radiation model are used for turbulent combustion. The particle trajectory model is applied to predicting two-phase flows. For verifying mathematical models and numerical methods, the Particle Imaging Velocimetry (PIV) is employed to measure non-reacting and reacting flow fields and the multiple-point thermocouple probe is used to obtain the radial profiles of the exit gas temperature. Predictions are in good agreement with the experimental data. It is shown that the numerical procedures are reasonable and the present research may be used for guiding the improving design of advanced annular combustors.

机译：在任意曲线坐标中，进行与旋流杯的环形燃烧器的3D非反应和两相反应综合流场的数值研究。 RNG K-ε模型，EBU-Arhenius湍流燃烧模型和六磁通辐射模型用于湍流燃烧。粒子轨迹模型应用于预测两相流量。为了验证数学模型和数值方法，采用粒子成像速度（PIV）来测量非反应和反应流场，并且多点热电偶探针用于获得出口气体温度的径向轮廓。预测与实验数据很好。结果表明，数值手术是合理的，并且本研究可用于引导先进的环形燃烧器的改善设计。

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《International symposium on jet propulsion and power engineering》|2010年||共5页
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作者
XuRong; Zhao Jian-xing; Liu Yong; Dang Xin-xian; Wang Suo-fang;
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中图分类航空发动机（推进系统）;
关键词
annular combustor; rng k-ε model; piv measurement; numerical investigation;

机译：环形燃烧器;rng k-ε模型;piv测量;数字调查;

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Numerical and Experimental Study of Flow Dynamics in a Gas Turbine Combustor with Swirl Cup

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