Experimental Investigation on Cryogen Saving through Helical Transfer Lines With Varied Orientation

2018 2nd International Conference on Green Energy and Applications (ICGEA) Pub Date : 2018-03-01 DOI:10.1109/ICGEA.2018.8356306

Jesna Mohammed, K. Roy, A. Mohizin

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引用次数: 0

Abstract

The demand and application of cryogenic fluids is constantly increasing. Production of these cryogenic fluids is an energy intensive process. Chilldown of the system prior to its operation is inevitable for the safe and manageable performance. This is accompanied with a large amount of cryogenic fluid loss that increases with the increase in chilldown time taken. This process, if done poorly, will cause wastage of cryogen which requires a lot of energy to produce. Therefore, saving cryogen in chilldown can save energy. In this study, effect of geometry and fluid flow pattern on chilldown characteristics of transfer lines has been investigated into. Comparative experimental study was conducted on straight and helically coiled transfer lines with 3 different orientation namely, horizontal, vertically upward and downward under continuous flow. It was found that helical coils could be chilled down faster. The comparison of chilldown time with continuous flow in straight and helically coiled tube was conducted using CFD simulation where, the pulsed flow pattern was identified to be more efficient for higher time period.

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不同方向螺旋传输线的低温节约实验研究

低温流体的需求和应用不断增加。这些低温流体的生产是一个能源密集型的过程。为了保证系统性能的安全和可管理，系统运行前的冷却是不可避免的。这伴随着大量的低温流体损失，随着冷却时间的增加而增加。这个过程，如果做得不好，将会造成需要大量能源来生产的冷媒的浪费。因此，在冷却时节省冷冻剂可以节省能源。本文研究了几何形状和流体流型对传输线冷却特性的影响。在连续流动条件下，对水平、垂直向上和向下3种不同方向的直线和螺旋盘绕传输线进行了对比实验研究。研究发现，螺旋线圈可以更快地冷却下来。通过CFD模拟，对比了直管和螺旋盘管内连续流动的冷却时间，发现脉冲流型在更长的时间内效率更高。

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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2018 2nd International Conference on Green Energy and Applications (ICGEA)

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