A direct numerical simulation study for confined non-isothermal jet impingement at moderate nozzle-to-plate distances: Capturing jet-to-ambient density effects

IF 5 2区 工程技术 Q1 ENGINEERING, MECHANICAL
Stefan P. Domino , Everett A. Wenzel
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Abstract

A direct numerical simulation (DNS) campaign is deployed for a series of confined downward oriented, non-isothermal turbulent impinging jet configurations. A baseline Reynolds number of 9960 is obtained through a precursor DNS pipe flow simulation (Reτ=505). Three jet temperature configurations (confinement height to nozzle diameter of three) enter a cylindrical domain that share ambient and impingement plate temperatures (298.15K). The range of jet temperatures are crafted such that the ratio of inlet to ambient density varies from unity to 0.52, showcasing the effect of density disparity on flow characteristics such as core collapse, radial mixing of momentum and energy, near-wall stagnation behavior, wall-jet profiles, and large-scale vortical structures. Surface quantities provided include mean radial heat flux and wall-shear stress profiles, and heat flux histograms at select radial stations. Results showcase increased radial normal stresses for higher temperature jets that support increased mixing, resulting in large-scale recirculation structures that are smaller, while retaining similar normalized radial wall profiles for shear stress, heat flux and pressure. Radial plots for wall shear stress and Nusselt number showcase strong radial decay as compared to previous configurations that share similar jet and ambient temperatures. For the 373.15 K case, a Gaussian-like histogram for heat fluxes at the impingement plate transitions to a log-normal profile as radial distances increase. In contrast, the 573.15 K configuration displays a bi-modal heat flux characteristic at the impingement plate, and in similar manner to the moderate temperature counterpart, transitions to a log-normal profile at larger radial distances.

Abstract Image

中等喷嘴-板距离下受限非等温射流撞击的直接数值模拟研究:捕捉射流-环境密度效应
采用直接数值模拟(DNS)方法研究了一系列受限向下定向的非等温湍流撞击射流结构。通过前体DNS管道流模拟(Reτ=505)得到基线雷诺数9960。三种射流温度配置(约束高度和喷嘴直径分别为三种)进入一个圆柱形区域,共享环境温度和撞击板温度(298.15K)。射流温度的范围是精心设计的,使得入口与环境密度的比值从1到0.52不等,显示了密度差异对流动特性的影响,如核心坍塌、动量和能量的径向混合、近壁停滞行为、壁面射流剖面和大规模涡结构。所提供的表面数量包括平均径向热流密度和壁面剪切应力分布,以及选定径向站的热流密度直方图。结果表明,高温射流增加了径向法向应力,增加了混合,导致大规模的再循环结构更小,同时保持了类似的归一化径向壁面切应力、热流密度和压力。壁面剪切应力和努塞尔数的径向图显示,与之前具有相似射流和环境温度的配置相比,径向衰减很强。对于373.15 K的情况,随着径向距离的增加,撞击板处热通量的高斯直方图转变为对数法向剖面。相比之下,573.15 K结构在撞击板处表现出双峰热通量特征,并且与中温结构相似,在较大的径向距离上转变为对数正态分布。
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来源期刊
CiteScore
10.30
自引率
13.50%
发文量
1319
审稿时长
41 days
期刊介绍: International Journal of Heat and Mass Transfer is the vehicle for the exchange of basic ideas in heat and mass transfer between research workers and engineers throughout the world. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding of transfer processes and their application to engineering problems. Topics include: -New methods of measuring and/or correlating transport-property data -Energy engineering -Environmental applications of heat and/or mass transfer
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