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A three-dimensional compressible flow stability model is presented in this paper, which focuses on stall inception of multi-stage axial flow compressors with a finite large radius annular duct configuration for the first time. It is shown that under some assumptions, the stability equation can be obtained yielding from a group of homogeneous equations. The stability can be judged by the non-dimensional imaginary part of the resultant complex frequency eigenvalue. Further more, based on the analysis of the unsteady phenomenon caused by casing treatment, the function of casing treatment has been modeled by a wall impedance condition which is included in the stability model through the eigenvalues and the corresponding eigenfunctions of the system. Finally, some experimental investigation and two numerical evaluation cases are conducted to validate this model and emphasis is placed on numerically studying the sensitivity of the setup of different boundary conditions on the stall inception of axial flow fan/compressors. A novel casing treatment which consists of a backchamber and a perforated plate is suggested, and it is noted that the open area ratio of the casing treatment is less than 10%, and is far smaller than conventional casing treatment with open area ratio of over 50%, which could result in stall margin improvement without obvious efficiency loss of fan/compressors. 相似文献
22.
加力燃油泵隔舌倒圆抑制分离的数值模拟 总被引:1,自引:1,他引:0
采用动态亚格子应力模型对加力燃油泵内非定常流场进行大涡模拟,探讨了原隔舌空蚀机理,并研究了不同倒圆半径下泵隔舌附近的瞬时流动规律及流量扬程特性.计算结果表明:小流量工况原隔舌处分离产生的强剪切涡会诱发空化,涡脱落形成的分离再附位置与空蚀破坏核心区域相符;小流量工况下,隔舌倒圆在扩散管内形成转向涡,消除了隔舌壁面分离绕流及附着剪切涡,4mm倒圆半径可以避免空化;设计流量范围内隔舌倒圆提高了泵出口扬程,流量越小扬程增幅越大,小流量工况时扬程增幅达3%. 相似文献
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