基于红外热像仪的对流传热系数测量实验

doi:10．14139/j．cnki．cn22-1228．2026．02．002

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摘要对流传热系数是传热学科研与工程领域中的核心性质之一。设计了一项基于红外热像仪的对流传热系数测量方法。实验以 6061 铝合金为试样，通过表面缠绕高发射率黑色胶带抑制红外测温误差，结合稳态与非稳态温度场测量方法，定量分析了自然对流(无风)、强制对流(1．5 m/s、2．5 m/s)三种工况下对流传热系数。实验结果表明:1)表面处理效应:黑色胶带使发射率从 0．856 提升至 0．987，显著优化红外热像仪测温精度;2)对流强度影响:值随强制对流增强而显著增大，自然状态、1．5 m/s 风速、2．5 m/s风速的对流传热系数，分别为17．67 W/(m 2 ·K)，20．69 W/(m 2 ·K)，107．65 W/(m 2 ·K)，符合牛
顿冷却定律理论。实验内容为传热学实验教学提供了直观、先进的观测手段，学生通过该实验系统掌握传热机理分析与工程问题解决方法，有助于理解对流换热机理，强化理论知识的工程应用，提升学生的科研素养及创新能力。

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	卢坤标
	胡旭波
	谭穗妍
	林芳

关键词: 红外热像仪对流传热系数自然对流发射率实验教学改革

Abstract: This study developed an experimental methodology for measuring convective heat transfercoefficients using infrared thermography．The experiment employed 6061 aluminium alloy specimens，with high-emissivity black adhesive tape applied to the surface to mitigate infrared temperature measurement errors．By integrating steady-state and unsteady-state temperature field measurement techniques，the convective heat transfer coefficients under three flow conditions—natural convection (no wind)，forced convection (1．5 m/s，and 2．5 m/s wind speeds)—were quantitatively analysed． The experimental results demonstrated that:1)Surface treatment effect:The black adhesive tape increased surface emissivity from 0．856 to 0．987，significantly improving the measurement accuracy of the infrared thermal imager;2)Convective intensity influence:The convective heat transfer coefficient increased markedly with forced convection strength． Under natural convection，1．5 m/s，and 2．5 m/s wind speeds，the coefficients were 17．67 W/(m 2 ·K)，20．69 W/(m 2 ·K)，107．65 W/(m 2 ·K)，respectively，aligning with Newton＇s law of cooling．This experimental framework provides
an intuitive and advanced observational tool for heat transfer education．Through systematic analysis of heat
transfer mechanisms and engineering problem-solving，students gain a deeper understanding of convective heat
transfer principles，strengthen the application of theoretical knowledge to practical engineering scenarios，and
enhance their scientific research literacy and innovation capabilities．

Key words: infrared thermal imager convective heat transfer coefficient natural convection emissivity reform of experimental teaching

发布日期: 2026-04-25

ZTFLH:

G 642．0

基金资助: 国家自然科学基金(61971201);华南农业大学 2022 年校级质量工程项目(ZLGC22032);2024 年度华南农业大学校级课
程思政示范项目(示范团队项目:光电信息类课程群思政团队)(KCSZ2024010);华南农业大学 2022 年校级教改项目
(JG22071);华南农业大学 2023 年度校级课程思政示范项目(KCSZ2023069)

引用本文:

卢坤标 , 胡旭波, 谭穗妍, 林芳 . 基于红外热像仪的对流传热系数测量实验[J]. 大学物理实验, 2026, 39(2): 7-11.
LU Kunbiao , HU Xubo, TAN Suiyan, LIN Fang . An Experimental Methodology for Convective Heat Transfer Coefficient Determination Using Infrared Thermal Imaging#br#. Physical Experiment of College, 2026, 39(2): 7-11.

链接本文:

https://dawushiyan.jlict.edu.cn/CN/10．14139/j．cnki．cn22-1228．2026．02．002 或 https://dawushiyan.jlict.edu.cn/CN/Y2026/V39/I2/7