Numerical Studies of a Two Dimensional Symmetric Diffuser in a Turbulent Flow Using CFD

The Asian Review of Civil Engineering Pub Date : 2013-11-05 DOI:10.51983/tarce-2013.2.2.2192

C. Kumar, Abhinandan S. Kabbur

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引用次数: 2

Abstract

The numerical studies of a two dimensional asymmetric diffuser in turbulent flow with maximum pressure at the exit is obtained using computational fluid dynamics. The three Reynolds number based on the bulk mean velocity and the channel height at the diffuser entrance is 18000, 40,000 and 60,000. The maximum pressure is obtained to be zero skin friction along the diffuser wall. The turbulent flow inside the diffuser is predicted using three Reynolds average navier stokes based turbulence models are considered for the study i.e., K-e standard, K-e RNG and K-w SST. The designed diffuser geometry has analyzed with fluent for its design intent. The variation of static pressure, velocity, skin friction coefficient and pressure coefficient are studied for three different Reynolds numbers. The designed diffuser geometry has been used in gas turbine engine exhaust. The function of diffuser is the kinetic energy of incoming exhaust gases from the power turbines is converted into static pressure through the diffuser. It also helps in discharging of exhaust gases from high speed to low speed, and also to turn the flow of gases from axial to radial direction.

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湍流中二维对称扩散器的CFD数值研究

利用计算流体力学方法，对具有最大出口压力的二维非对称扩压器进行了数值研究。在扩压器入口处，基于体平均速度和通道高度的三个雷诺数分别为18000、40000和60000。最大压力为沿扩散器壁的零表面摩擦。本文考虑了基于K-e标准、K-e RNG和K-w SST的三种雷诺平均纳维斯托克斯湍流模型来预测扩压器内部的湍流。对所设计的扩压器的设计意图进行了几何分析。研究了三种不同雷诺数下的静压、速度、摩擦系数和压力系数的变化规律。所设计的扩压器已在燃气轮机排气中得到应用。扩压器的作用是将动力涡轮进入的废气动能通过扩压器转化为静压。它还有助于将废气从高速排放到低速，并将气体的流动从轴向转向径向。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Asian Review of Civil Engineering

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