直锥形扩压器内湍流旋流的积分和统计特性

IF 0.7 Q4 MECHANICS Theoretical and Applied Mechanics Pub Date : 2018-01-01 DOI:10.2298/TAM171201012I
B. Ilic, S. Cantrak, Z. Janković
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引用次数: 1

摘要

. 本文对进口直径为0的直锥形扩压器内的湍流旋流进行了实验研究。4米,总发散角8。6◦在本文中提出。不可压缩涡流流场由外径为0的轴流风机产生。397米。在轴流风机叶轮下游的锥形扩压器位置(z/R 0 = 1)的一个测量段,使用原始的经典探头和单分量激光多普勒风速测量(LDA)系统,对四种流型进行了测量。给出了轴向速度和周向速度的比较测量结果。根据平均速度计算得到的雷诺数范围为149857 ~ 216916。确定了容积流量、平均循环数和旋流数等积分参数。统计特性,如湍流水平,偏度和平面因素,计算。轴向速度的最高湍流水平在区域0达到。4 < r/ r < 0。6,其中D = 2r。在r/ r≈0的低环流区,周向速度湍流达到最高水平。4,即在高环流情况下,在涡核区。
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Integral and statistical characteristics of the turbulent swirl flow in a straight conical diffuser
. The results of the experimental investigations of the turbulent swirl flow in a straight conical diffuser with inlet diameter 0 . 4m and total divergence angle 8 . 6 ◦ are presented in this paper. The incompressible swirl flow field is generated by the axial fan with outer diameter 0 . 397m . The measurements were performed in one measuring section downstream the axial fan impeller in the conical diffuser in position ( z/R 0 = 1) with original classical probes and an one-component laser Doppler anemometry (LDA) system, for four flow regimes. The comparative measurements of axial and circumferential velocities are presented. The Reynolds number, calculated on the basis of the average velocity, ranges from 149857 to 216916. Integral parameters, such as volume flow rate, average circulation and swirl number, are determined. Statistical characteristics, such as level of turbulence, skewness and flatness factors, are calculated. The highest levels of turbulence for axial velocity are reached in region 0 . 4 < r/R < 0 . 6 , where D = 2 R . The highest levels of turbulence for circumferential velocity are reached for the regimes with lower circulation in r/R ≈ 0 . 4 , i.e., in the vortex core region for the cases with higher circulation.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
4
审稿时长
32 weeks
期刊介绍: Theoretical and Applied Mechanics (TAM) invites submission of original scholarly work in all fields of theoretical and applied mechanics. TAM features selected high quality research articles that represent the broad spectrum of interest in mechanics.
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