为了揭示涡流二极管内三维强旋流动的特性与其阻抗性能的关系,进一步提高涡流二极管正反向流动阻抗比,本文采用Reynolds应力模型对涡流腔内非对称强旋转湍流流动进行了数值模拟,分析了腔内矢量场与标量场的分布特性,基于涡流腔内的涡量分析,得到了涡流腔内旋流的强制涡与自由涡结构及各自区域范围,并研究了涡流腔径宽比对整体性能的影响,为涡流二极管的结构设计提供参考依据。
In order to investigate the relationship between the characteristic of three-dimensional strong rotational flow in vortex diode and its impedance performance, increase the impedance ratio of forward and reverse flow, CFD simulations with Reynolds Stress model were carried out on the unsymmetrical strong rotational turbulent flow in chamber of vortex diode. The structure of forced vortex and free vortex in chamber and their distribution scope were revealed through the analysis of vector field, scalar field and vorticity in the chamber. What ever, the influence on vortex diode comprehensive performance by the ratio of diameter and height of chamber were studied. The results provide some theoretical basis for optimizing the vortex diode.
参考文献
| [1] | J.J.Derksen;H.E.A.Van den Akker .Simulation of Vortex Core Precession in a Peverse-Flow Cyclone[J].AIChE Journal,2000(7):1317-1331. |
| [2] | 陆耀军,周力行,沈熊.不同湍流模型在液-液旋流分离管流场计算中的应用及比较[J].清华大学学报(自然科学版),2001(02):105-109. |
| [3] | 郭彦华,景山,吴秋林,陈靖,宋崇立.涡流二极管泵性能[J].化工学报,2004(10):1625-1630. |
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