Prediction of heat transfer for a single round jet impingement using the GEKO turbulence model

IF 2.6 3区 工程技术 Q2 ENGINEERING, MECHANICAL International Journal of Heat and Fluid Flow Pub Date : 2024-08-22 DOI:10.1016/j.ijheatfluidflow.2024.109538
Recep Yüksekdağ, Dilara Koçak, Utku Şentürk
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Abstract

Two-dimensional Reynolds-Averaged Navier–Stokes simulations are performed to study a single, round impinging jet heat transfer problem, utilizing the generalized k-omega (GEKO) turbulence model as a benchmark. The simulations are performed at a jet Reynolds number of 23,300 and a nozzle-to-plate distance of 2.0 where a second peak in surface Nusselt number is observed. The effects of the three primary (Csep, Cmix and Cnw) and three auxiliary (Cbf,l, Cbf,t and Cnw,sub) GEKO calibration parameters are investigated. The results indicate that Cmix has the most significant impact on the laminar-turbulent transition zone. A deep learning based regression model is developed and trained using the simulation outputs for fast predictions of the heat transfer curve. Using Csep=1.1, Cmix=0.7, Cnw=2.0, Cnw,sub=2.25 and Cbf,t=3.0 along with laminar-to-turbulent transitional modeling values, provides the best agreement with experimental results from previous studies.

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利用 GEKO 湍流模型预测单轮喷流撞击的传热情况
利用广义 k-omega (GEKO) 湍流模型作为基准,进行了二维雷诺平均纳维-斯托克斯模拟,以研究单个圆形撞击射流传热问题。模拟是在喷流雷诺数为 23,300 和喷嘴到板的距离为 2.0 时进行的,在该位置观察到了表面努塞尔特数的第二个峰值。研究了三个主要 GEKO 校准参数(Csep、Cmix 和 Cnw)和三个辅助参数(Cbf,l、Cbf,t 和 Cnw,sub)的影响。结果表明,Cmix 对层流-湍流过渡区的影响最大。利用模拟输出开发并训练了基于深度学习的回归模型,用于快速预测传热曲线。使用 Csep=1.1、Cmix=-0.7、Cnw=2.0、Cnw,sub=2.25 和 Cbf,t=3.0 以及层流-湍流过渡模型值,可提供与以往研究中实验结果的最佳一致性。
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来源期刊
International Journal of Heat and Fluid Flow
International Journal of Heat and Fluid Flow 工程技术-工程:机械
CiteScore
5.00
自引率
7.70%
发文量
131
审稿时长
33 days
期刊介绍: The International Journal of Heat and Fluid Flow welcomes high-quality original contributions on experimental, computational, and physical aspects of convective heat transfer and fluid dynamics relevant to engineering or the environment, including multiphase and microscale flows. Papers reporting the application of these disciplines to design and development, with emphasis on new technological fields, are also welcomed. Some of these new fields include microscale electronic and mechanical systems; medical and biological systems; and thermal and flow control in both the internal and external environment.
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