21t ft-icr磁体闭环冷却系统中制冷机的氦液化

Advances in cryogenic engineering Pub Date : 2008-03-27 DOI:10.1063/1.2908570

Y. S. Choi, T. Painter, D. L. Kim, B. Lee, H. Yang

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引用次数: 2

摘要

研制了采用两级脉冲管制冷机的氦液化系统。本研究的主要目的是通过闭环概念确认我们最近提出的21 T FT-ICR超导磁体系统低温设计的可行性，而无需补充任何冷冻剂。由于低温冷却器的冷表面是非常有限的，一个圆柱形的铜翅片热锚定在第一级和第二级冷头，以扩大可用的传热表面。在每个圆柱形翅片的外表面焊接热交换管，热交换管与穿过管的氦气之间进行热交换。在考虑扩展面翅片效率的情况下，采用数值方法分析了沿铜筒和换热器的温度分布。分析了冷却过程中氦气流量对温度分布的影响。

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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HELIUM-LIQUEFACTION BY A CRYOCOOLER IN CLOSED-LOOP COOLING SYSTEM FOR 21 T FT-ICR MAGNETS

The helium liquefaction system using a two-stage pulse tube cryocooler is developed. The main objective of this study is to confirm the feasibility of our recently proposed cryogenic design for a 21 T FT-ICR superconducting magnet system by the closed-loop concept without any replenishment of cryogen. Since the cold surface of a cryocooler is very limited, a cylindrical copper fin is thermally anchored to the first and second stage coldheads in order to extend the available heat transfer surface. A heat exchange tube is soldered on the outer surface of each cylindrical fin and heat exchange occurs between the tube and helium which is passing through the tube. The temperature distributions along the copper cylinder and heat exchanger are analyzed by the numerical method taking into account the fin efficiency of the extended surface. The effect of helium gas flow on the temperature distribution during cool-down process is also presented.

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Advances in cryogenic engineering

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