水平粗化管薄膜灌溉时的蒸发和沸腾传热

IF 1.3 4区 工程技术 Q3 ENGINEERING, MECHANICAL
A. N. Pavlenko, A. I. Kataev, I. B. Mironova
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引用次数: 0

摘要

摘要工业用管壳式换热器通常需要相当长的管道。对此类管进行表面处理以提高设备的传热参数,必须在制造上便宜、简单。比较了喷砂和机械加工两种管材表面处理方法。外径= 10 mm,内径= 6 mm,长度为625 mm的管在安装在矩形蒸发器壳内的一束水平管中进行了测试。通过作为热载体的管束泵送的热水。工作液采用压力为\(\sim\) 3bara的R21制冷剂。在\(Re\)上进行了从500到1500的测试。微粗管(加工硬铝管,喷砂铜管)在向气泡沸腾过渡时提供了相当大的传热增强。在低热流密度(蒸发状态)下,这些管上的传热接近于平管。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Evaporation and Boiling Heat Transfer at Film Irrigation of Horizontal Roughened Tubes

Evaporation and Boiling Heat Transfer at Film Irrigation of Horizontal Roughened Tubes

Evaporation and Boiling Heat Transfer at Film Irrigation of Horizontal Roughened Tubes

Industrial shell and tube heat exchangers require often pipes of considerable length. The surface treatment of such tubes to enhance heat transfer parameters of the equipment must be cheap and simple in manufacturing. Two kinds of tube surface treatment are compared: sandblasting and machining. The tubes with OD = 10 mm, ID = 6 mm, and 625 mm long were tested within a bundle of horizontal tubes installed in a rectangular evaporator shell. Hot water pumped through bundle tubes used as a heat carrier. Refrigerant R21 at the pressure of \(\sim\)3 bara is used as working liquid. Tests have been performed at \(Re\) numbers from 500 to 1500. The micro-rough tubes (machined duralumin tube, sandblasted copper tube) provide considerable heat transfer enhancement at transition to bubble boiling. At low heat fluxes (evaporation regime) heat transfer on these tubes are close to plain tubes.

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来源期刊
Journal of Engineering Thermophysics
Journal of Engineering Thermophysics THERMODYNAMICS-ENGINEERING, MECHANICAL
CiteScore
2.30
自引率
12.50%
发文量
0
审稿时长
3 months
期刊介绍: Journal of Engineering Thermophysics is an international peer reviewed journal that publishes original articles. The journal welcomes original articles on thermophysics from all countries in the English language. The journal focuses on experimental work, theory, analysis, and computational studies for better understanding of engineering and environmental aspects of thermophysics. The editorial board encourages the authors to submit papers with emphasis on new scientific aspects in experimental and visualization techniques, mathematical models of thermophysical process, energy, and environmental applications. Journal of Engineering Thermophysics covers all subject matter related to thermophysics, including heat and mass transfer, multiphase flow, conduction, radiation, combustion, thermo-gas dynamics, rarefied gas flow, environmental protection in power engineering, and many others.
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