Review on Factors Affecting Efficiency of Shell and Tube Heat Exchanger

1, 2024 Pub Date : 2024-03-07 DOI:10.46632/jacp/3/1/3

Evangeline Sheeba, Mohamed Khutbuddin, Noorul Arshadh

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Abstract

Heat exchanger is one amongst promising thermal device in which heat transfer takes place between hot fluid and cold fluid. Among various classifications of warmth exchangers, the main focus was shown by researchers on indirect contact type compact heat exchangers. Among them the shell and tube device belongs to fluid to fluid type heat transfer device. Main applications of shell and tube device feed device in process industries, refineries, chemical plants and power plants. Usually the analysis of shell and tube heat exchangers are divided into two parts namely shell side and tube side analysis. Shell side analysis is easy and doesn't involve much modification. Whereas the tube side analysis is complex and it's done by varying baffle design and elevation with regard to arrangements of tubes. The most disadvantage of shell and tube device is pressure drop which occur at the end of tubes. To overcome this problem, drilled cylindrical copper block has been introduced to switch the tube part through which the new fluid flows and therefore the cold fluid is circulated through the shell. With this design modification, the effectiveness, mass rate, overall heat transfer co efficient are simulated and analysed.

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管壳式热交换器效率影响因素综述

热交换器是热流体和冷流体之间进行热传递的一种有前途的热设备。在各种热交换器分类中，研究人员主要关注间接接触式紧凑型热交换器。其中，管壳式设备属于流体对流体型热交换设备。壳管式换热器主要应用于加工工业、炼油厂、化工厂和发电厂。壳管式换热器的分析通常分为两部分，即壳侧和管侧分析。壳侧分析比较简单，不涉及太多修改。而管侧分析则比较复杂，它是通过改变挡板设计和管子排列的高度来完成的。管壳式装置的最大缺点是在管子末端会产生压降。为了克服这一问题，采用了钻孔圆柱形铜块来切换新流体流经的管子部分，从而使冷流体在管壳中循环。通过这种设计修改，我们模拟并分析了效率、质量率、整体传热系数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1, 2024

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