Accurately predicting turbulent heat transfer over rough walls: a review of measurement equipment and methods

IF 2.3 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Wagih Abu Rowin, Yu Xia, Sicong Wang, Nicholas Hutchins
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Abstract

Studying turbulent heat transfer over rough surfaces is vital for enhancing heat transfer efficiency in various practical applications. This research presents an in-depth examination of the commissioning of a heated floor boundary layer wind tunnel facility, specifically focussing on addressing the uncertainties in measuring heat transfer over rough walls. Our findings show that minor variations in the slope of the inner-scaled mean temperature profile (\(\kappa _h\)) on a heated smooth wall have a marginal effect on the estimates of friction temperature and heat transfer coefficients across a range of friction Reynolds numbers (\({900 \lesssim \textrm{Re}_\tau \lesssim 3700}\)) when using the Clauser fit method. Direct heat transfer measurements using power metres validate this conclusion. Temperature measurements over a three-dimensional sinusoidal roughness indicate constant \(\kappa _h\) within uncertainty limits across the examined range \({2300 \lesssim \textrm{Re}_\tau \lesssim 10{,}400}\), contingent on prior knowledge of the roughness’s virtual origin. Nevertheless, measuring heat transfer coefficients and roughness functions entails large uncertainty due to challenges in estimating heat losses and applying the modified Clauser method. Recommendations for enhancing accuracy in heated rough wall measurements include direct measurement of wall shear stress and heat flux, selecting low emissivity heated plates and ensuring precise control of heated wall conditions. This work also emphasises the significance of conducting a comprehensive uncertainty analysis as a valuable tool for identifying and addressing any shortcomings in the measurement facility and equipment.

Abstract Image

准确预测粗糙壁面上的湍流传热:测量设备和方法综述
研究粗糙表面上的湍流传热对于提高各种实际应用中的传热效率至关重要。本研究对加热地板边界层风洞设施的调试进行了深入研究,特别侧重于解决测量粗糙墙面传热的不确定性问题。我们的研究结果表明,在使用克劳瑟拟合方法时,加热光滑壁面上的内标平均温度曲线(\(\kappa _h\))斜率的微小变化对摩擦雷诺数(\({900 \lesssim \textrm{Re}_\tau \lesssim 3700}\))范围内的摩擦温度和传热系数的估计值影响甚微。使用功率计进行的直接传热测量验证了这一结论。三维正弦粗糙度上的温度测量结果表明,在所考察的范围({2300 \lesssim \textrm{Re}_\lesssau \lesssim 10{,}400}\) 内,不确定度范围内的(\kappa _h\)恒定不变,这取决于事先对粗糙度虚拟原点的了解。然而,由于在估算热损失和应用修正的克劳瑟方法方面存在挑战,测量传热系数和粗糙度函数会带来很大的不确定性。提高加热粗糙壁测量精度的建议包括直接测量壁面剪应力和热通量、选择低发射率加热板以及确保精确控制加热壁条件。这项工作还强调了进行全面不确定性分析的重要性,它是发现和解决测量设施和设备缺陷的重要工具。
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来源期刊
Experiments in Fluids
Experiments in Fluids 工程技术-工程:机械
CiteScore
5.10
自引率
12.50%
发文量
157
审稿时长
3.8 months
期刊介绍: Experiments in Fluids examines the advancement, extension, and improvement of new techniques of flow measurement. The journal also publishes contributions that employ existing experimental techniques to gain an understanding of the underlying flow physics in the areas of turbulence, aerodynamics, hydrodynamics, convective heat transfer, combustion, turbomachinery, multi-phase flows, and chemical, biological and geological flows. In addition, readers will find papers that report on investigations combining experimental and analytical/numerical approaches.
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