Optimization and sensitivity analysis of high frequency pulse tube cryocooler for aerospace application

Maejo International Journal of Energy and Environmental Communication Pub Date : 2022-05-17 DOI:10.54279/mijeec.v4i2.247992

Damu Chakala, Sumukh Moudghalya, Mrunal Nerale, Rajendra Prasad, U. Behera, Sathyanarayana Reddy

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Abstract

The demand for cryogenic cooling systems has been on the rise ever since the development of long-range infrared imaging systems, especially high-frequency stirling-type cryocoolers which have a vast array of applications in the aerospace sector. While there have been many studies reporting analysis of the pulse tube cryocoolers, these lack an optimization approach with a further sensitivity analysis from computational fluid dynamic (CFD) data to obtain better cold end temperatures. Presently, a response surface method (RSM), has been utilized to characterize the influence of the affecting parameters and a global sensitivity analysis has been conducted to put forward the critical parameters that influence the performance of the device. It is observed that an increase in frequency for lower pressure ratios with higher mean pressure results in better cooling performance in smaller pulse tube diameter models. The sensitivity analysis indicates the operating parameters such as frequency and pressure ratios to be more influential than the geometric parameters with an impact of over 80%.

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航天用高频脉冲管制冷机的优化与灵敏度分析

自远程红外成像系统发展以来，对低温冷却系统的需求一直在上升，特别是在航空航天领域有着广泛应用的高频斯特林型制冷机。虽然有许多研究报告了对脉管制冷机的分析，但这些研究都缺乏一种优化方法，可以通过计算流体动力学(CFD)数据进行进一步的灵敏度分析，以获得更好的冷端温度。目前，利用响应面法(RSM)表征影响参数的影响，并进行全局灵敏度分析，提出影响器件性能的关键参数。在较小的脉冲管径模型中，在较低的压力比和较高的平均压力下，增加频率可以获得较好的冷却性能。灵敏度分析表明，频率比、压力比等操作参数比几何参数的影响更大，影响幅度在80%以上。

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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Maejo International Journal of Energy and Environmental Communication

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