Adaptive Mesh Refinement Strategies for Cost-Effective Eddy-Resolving Transient Simulations of Spray Dryers

IF 2.8 Q2 ENGINEERING, CHEMICAL
Jairo Andrés Gutiérrez Suárez, Carlos Humberto Galeano Urueña, Alexánder Gómez Mejía
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引用次数: 0

Abstract

The use of adaptive meshing strategies to perform cost-effective transient simulations of spray drying processes is evaluated. These simulations are often computationally expensive, given the large differences between the characteristic times of the central jet and those of the unsteady flow developed at its periphery. Managing the computational cost through the control of the grid resolution by regions is inadequate in many of these applications since the grid resolution requirements change dynamically within the domain. These conditions are related to the unsteady nature of the flow in both the central jet and the flow recirculation zones. Therefore, the application of adaptive mesh refinement (AMR) strategies is recommended. In this paper, general AMR criteria based on relative errors are evaluated by testing three mesh adaptation criteria: velocity gradient, pressure gradient, and vorticity. This evaluation is performed using a low-cost turbulence model with eddy resolution (DDES) in two different types of drying chambers, in which experimental measurements are available. The use of AMR exerts appreciable effects on decreasing computational costs and contributes to the capture of large eddies in critical regions. The present approach provides an appropriate balance between solution accuracy and computational cost. By using a correct AMR configuration, it is possible to obtain results similar to those obtained on a fixed grid but reducing the computational costs by 3 to 5 times.
喷雾干燥机涡流解析瞬态仿真的自适应网格细化策略
使用自适应网格策略来执行具有成本效益的喷雾干燥过程的瞬态模拟进行了评估。考虑到中心射流的特征时间与外围发展的非定常流的特征时间之间的巨大差异,这些模拟通常在计算上是昂贵的。由于网格分辨率需求在域内是动态变化的,因此在许多此类应用中,通过按区域控制网格分辨率来管理计算成本是不够的。这些条件与中心射流和回流区流动的非定常性有关。因此,建议采用自适应网格细化(AMR)策略。本文通过测试速度梯度、压力梯度和涡度三个网格自适应准则,对基于相对误差的通用AMR准则进行了评价。该评估是在两种不同类型的干燥室中使用具有涡流分辨率(DDES)的低成本湍流模型进行的,其中可以进行实验测量。AMR的使用对降低计算成本和捕获关键区域的大涡流有明显的影响。本方法在求解精度和计算成本之间取得了适当的平衡。通过使用正确的AMR配置,可以获得与固定网格相似的结果,但可以将计算成本降低3到5倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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