Experimental Investigation and Thermophysics Analysis of Joule-Thomson Cooler Applicable to Infrared Imaging.
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.
Subjects
INFRARED imaging; THERMAL imaging cameras; INFRARED detectors; HEAT exchangers; COINCIDENCE; GEOMETRIC modeling; THERMOGRAPHY
Description
Indexed in scopushttps://openurl.ebsco.com/EPDB%3Agcd%3A9%3A28280809/detailv2?sid=ebsco%3Aplink%3Aresult-item&id=ebsco%3Adoi%3A10.14429%2Fdsj.73.18686&bquery=Defence%20Science%20Journal&page=3&link_origin=www.google.com |
Article metrics10.31763/DSJ.v5i1.1674 Abstract views : | PDF views : |
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Conflict of interest
“Authors state no conflict of interest”
Funding Information
This research received no external funding or grants
Peer review:
Peer review under responsibility of Defence Science Journal
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Not applicable.
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Acknowledgements:
None.