Experimental Investigation and Thermophysics Analysis of Joule Thomson Cooler Applicable to Infrared Imaging

Pub Date : 2023-07-11 DOI:10.14429/dsj.73.18686
Mayank Singhal, Rajesh Kumar, R. Walia, S. K. Pandey
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Abstract

Recuperative type of heat exchanger (H-E) based miniature Joule-Thomson (J-T) cooler operated in the steady-state condition is employed extensively in applications towards infrared detectors cooling, thermal imaging cameras, and homing guidance devices in a wide variety of defence projectile systems. In this study, a theoretical thermal design of recuperative H-E for determining a viable geometry using iterative methodology is discussed. A steady-state numerical analysis for the developed geometrical model of the H-E is also reported, along with the experimental studies for typical operating conditions. A custom numerical code using the Runge-Kutta method has been developed in MATLAB, and the results from the code compared with predictions of COMSOL multi-physics are in good agreement. Further, results have been validated proving the efficacy of the theoretical model and custom numerical code developed.
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适用于红外成像的焦耳-汤姆逊冷却器的实验研究与热物理分析
基于微型焦耳-汤姆逊(J-T)冷却器的蓄热式热交换器(H-E)在稳态条件下运行,被广泛应用于各种国防射弹系统中的红外探测器冷却、热像仪和寻的制导装置。本研究讨论了利用迭代方法确定可行几何形状的换热式 H-E 理论热设计。还报告了对所开发的 H-E 几何模型的稳态数值分析,以及典型工作条件下的实验研究。使用 Runge-Kutta 方法在 MATLAB 中开发了一个定制的数值代码,该代码的结果与 COMSOL 多物理场的预测结果相比非常一致。此外,还对结果进行了验证,证明了所开发的理论模型和定制数值代码的有效性。
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