将带小直径管的无翅片热交换器用作空气加热器或空气冷却器的应用潜力实验研究

IF 1.7 4区 工程技术 Q3 THERMODYNAMICS
Binfei Zhan, Zhichao Wang, Shuangquan Shao, Zhaowei Xu, Jiandong Li, Jing Yan, Lichao Han
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引用次数: 0

摘要

增加热交换器的内外表面积比通常被认为是提高性能的有效方法。本文提出了一种新型无翅片热交换器,其微型管径可用作空气加热器或空气冷却器。为了充分了解这种新型热交换器的性能,建立了一个试验台。根据相关标准规范对加热和冷却性能进行了测试。此外,还将该热交换器与七种传统热交换器进行了比较。这种新型热交换器具有出色的表面传热温差均匀性。与所测试的七种传统热交换器相比,这种新型设计的热传导效果显著增强,作为空气加热器,至少提高了 173%,而作为空气冷却器,则提高了惊人的 277%。不过,它也表现出较高的水侧流动阻力。重要的是,传统的经验传热方程被证明不适合该系统,因此有必要进行修改,以获得新的系数:C=0.0839 和 n=0.992。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Investigation on the Application Potential of Finless Heat Exchanger with Mini-Diameter Tubes Utilized as Air Heater or Air Cooler
Increasing the ratio of the internal and external surface areas of heat exchangers is ordinarily considered to be an effective way of improving performance. In this paper a novel finless heat exchanger with mini-diameter tubes used as air heater or air cooler is proposed. In order to fully understand the performance of this novel type of heat exchanger, a test bench was established. The heating and cooling performances were tested according to relevant standard specifications. Furthermore, the heat exchanger was compared with seven conventional heat exchangers. This novel heat exchanger has excellent surface heat transfer temperature difference uniformity. Relative to the seven traditional heat exchangers examined, this novel design demonstrated remarkable heat transfer enhancements, registering gains of at least 173% as an air heater and a staggering 277% as an air cooler. However, it also exhibited elevated water-side flow resistances. Critically, conventional empirical heat transfer equations proved suboptimal for this system, necessitating modifications that yielded new coefficients: C=0.0839 and n=0.992.
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来源期刊
Heat Transfer Research
Heat Transfer Research 工程技术-热力学
CiteScore
3.10
自引率
23.50%
发文量
102
审稿时长
13.2 months
期刊介绍: Heat Transfer Research (ISSN1064-2285) presents archived theoretical, applied, and experimental papers selected globally. Selected papers from technical conference proceedings and academic laboratory reports are also published. Papers are selected and reviewed by a group of expert associate editors, guided by a distinguished advisory board, and represent the best of current work in the field. Heat Transfer Research is published under an exclusive license to Begell House, Inc., in full compliance with the International Copyright Convention. Subjects covered in Heat Transfer Research encompass the entire field of heat transfer and relevant areas of fluid dynamics, including conduction, convection and radiation, phase change phenomena including boiling and solidification, heat exchanger design and testing, heat transfer in nuclear reactors, mass transfer, geothermal heat recovery, multi-scale heat transfer, heat and mass transfer in alternative energy systems, and thermophysical properties of materials.
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