利用谱元法研究顶盖驱动空腔的粘弹性流动

IF 2.7 2区 工程技术 Q2 MECHANICS
D. Fenton , P.J. Bowen , E. De Angelis
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引用次数: 0

摘要

通过对基准顶盖驱动空腔问题的系统分析,评估了 DEVSS-G 公式中用于解决非牛顿流的谱元方法的性能。该方法首先通过与蠕变牛顿流和奥尔德罗伊德-B 流的比较进行验证,在奥尔德罗伊德-B 流中,必须采用顶盖速度正则化方案来消除顶盖-壁面界面的奇异性。在这两种情况下,对于稳定的、与时间无关的流动,与文献的研究结果都非常吻合,事实上,对于这些类型的流动,使用本方法可以获得更高的魏森伯格数。此外,还介绍并讨论了求解的一些物理方面,但是当魏森伯格数增加时,由于 BDF/FPI 时间推进方案缺乏收敛性,该方法就会失效。通过系统地评估细化程度和时间细化程度对流场的影响,以及在构成方程中引入限制扩展的 Giesekus 移动性参数,证明了在每种情况下,由于无法准确地解决应力梯度问题,导致 BDF/FPI 机制中的误差不断增加,最终导致其发散。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Viscoelastic flows of a lid-driven cavity using spectral element methods

The performance of a spectral element method in the DEVSS-G formulation for the solution of non-Newtonian flows is assessed by means of a systematic analysis of the benchmark lid-driven cavity problem. It is first validated by comparison with the creeping Newtonian and Oldroyd-B flows, where in the latter case a lid velocity regularisation scheme must be employed to remove the singularity at the lid-wall interfaces. In both instances, excellent agreement is found with the literature for stable, time-independent flows, and in fact it is shown that higher Weissenberg numbers can be obtained using the present methodology for these types of flow. Some physical aspects of the solutions are also presented and discussed, however at increasing Weissenberg numbers, the methodology breaks down due to a lack of convergence in the BDF/FPI time advancement scheme. By systematically assessing the effects of the levels of hp-refinement and temporal refinement on the flow fields, as well as the introduction of the extension-limiting Giesekus mobility parameter in the constitutive equations, it is demonstrated that in each instance the inability to accurately resolve the stress gradients leads to a compounding of errors in the BDF/FPI regime, ultimately causing it to diverge.

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来源期刊
CiteScore
5.00
自引率
19.40%
发文量
109
审稿时长
61 days
期刊介绍: The Journal of Non-Newtonian Fluid Mechanics publishes research on flowing soft matter systems. Submissions in all areas of flowing complex fluids are welcomed, including polymer melts and solutions, suspensions, colloids, surfactant solutions, biological fluids, gels, liquid crystals and granular materials. Flow problems relevant to microfluidics, lab-on-a-chip, nanofluidics, biological flows, geophysical flows, industrial processes and other applications are of interest. Subjects considered suitable for the journal include the following (not necessarily in order of importance): Theoretical, computational and experimental studies of naturally or technologically relevant flow problems where the non-Newtonian nature of the fluid is important in determining the character of the flow. We seek in particular studies that lend mechanistic insight into flow behavior in complex fluids or highlight flow phenomena unique to complex fluids. Examples include Instabilities, unsteady and turbulent or chaotic flow characteristics in non-Newtonian fluids, Multiphase flows involving complex fluids, Problems involving transport phenomena such as heat and mass transfer and mixing, to the extent that the non-Newtonian flow behavior is central to the transport phenomena, Novel flow situations that suggest the need for further theoretical study, Practical situations of flow that are in need of systematic theoretical and experimental research. Such issues and developments commonly arise, for example, in the polymer processing, petroleum, pharmaceutical, biomedical and consumer product industries.
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