颗粒和多相流的验证、验证和不确定度量化框架的发展-第一部分:筛选研究和敏感性分析

IF 0.5 Q4 ENGINEERING, MECHANICAL
A. Gel, A. Vaidheeswaran, Jordan Musser, C. Tong
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引用次数: 11

摘要

为多相流应用建立计算流体动力学(CFD)模型的可信度正日益成为主流要求。然而,已建立的验证和确认(V&V)标准主要用于单相流应用。针对其适用于多相流的研究有限。因此,它们的应用可能并非微不足道,需要进行彻底的调查。我们建议采用ASME V&V 20标准,并通过引入一些最佳实践,通过几个扩展来探索其对多相流的适用性。在当前的研究中,提出了所提出的验证、验证和不确定度量化(VVUQ)框架,并通过模拟几种工业过程中常用的锥形料斗中的颗粒排放来证明其初步应用。作为V&V方法拟议扩展的一部分,对包括CFD建模师和实验者在内的主题专家进行了详细调查。调查结果强调,在开始模拟和实验活动之前,除了进行敏感性研究外,还需要对重要性排名进行更定量的评估。因此,进行了筛选研究,然后进行了全局灵敏度,以确定CFD模拟中最具影响力的参数,作为该过程的第一阶段,如本文所述。结果表明,颗粒-颗粒的恢复系数和摩擦系数是颗粒排放流问题的最重要参数,选择这些参数来演示该过程。这些参数的识别对于确定它们对感兴趣的量的影响以及提高数值预测的置信水平是重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Toward the Development of a Verification, Validation, and Uncertainty Quantification Framework for Granular and Multiphase Flows—Part 1: Screening Study and Sensitivity Analysis
Establishing the credibility of computational fluid dynamics (CFD) models for multiphase flow applications is increasingly becoming a mainstream requirement. However, the established verification and validation (V&V) Standards have been primarily demonstrated for single phase flow applications. Studies to address their applicability for multiphase flows have been limited. Hence, their application may not be trivial and require a thorough investigation. We propose to adopt the ASME V&V 20 Standard and explore its applicability for multiphase flows through several extensions by introducing some of the best practices. In the current study, the proposed verification, validation, and uncertainty quantification (VVUQ) framework is presented and its preliminary application is demonstrated using the simulation of granular discharge through a conical hopper commonly employed in several industrial processes. As part of the proposed extensions to the V&V methodology, a detailed survey of subject matter experts including CFD modelers and experimentalists was conducted. The results from the survey highlighted the need for a more quantitative assessment of importance ranking in addition to a sensitivity study before embarking on simulation and experimental campaigns. Hence, a screening study followed by a global sensitivity was performed to identify the most influential parameters for the CFD simulation as the first phase of the process, which is presented in this paper. The results show that particle–particle coefficients of restitution and friction are the most important parameters for the granular discharge flow problem chosen for demonstration of the process. The identification of these parameters is important to determine their effect on the quantities of interest and improve the confidence level in numerical predictions.
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来源期刊
CiteScore
1.60
自引率
16.70%
发文量
12
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