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System Studies of Advanced Single-Phase Fluid Loop with Honeycomb-Cored Cold Plate
Technical Paper
1999-01-2091
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
The feasibility study of the thermal control system for medium size or large size satellites was conducted to investigate the capabilities and specifications of devices such as cold plates, a radiator, a mechanical pump, and so on. In the first step of the system development demonstration, the cold plate was selected to investigate the performance among these devices. In this paper, the system concept of the advanced single-phase fluid loop and the evaluation by numerical analysis and experiments are described.
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Citation
Yamada, H., Yasuda, T., Nagasaka, Y., Okamoto, A. et al., "System Studies of Advanced Single-Phase Fluid Loop with Honeycomb-Cored Cold Plate," SAE Technical Paper 1999-01-2091, 1999, https://doi.org/10.4271/1999-01-2091.Also In
References
- Decrisantis A.A. Nason, J.R. Shuttle Orbiter Thermal Control Post-Flight Evaluation AIAA-82-0006, 1982
- Fujita A Development of Heat Transfer Devices for a Fluid Loop Loaded in Free Flyer Proc. Thermal Engineering Symposium ’92 1 2 1992
- Fukatsu Development Test on Cold-Plate for JEM Exposed Facility (EF) 19 20 1994
- Yamada, H. Okada, N. Endurance Test of Space Gear Pump in a Vacuum (2 nd report) 41 st Space Sciences and Technology Conference, 97-13-15, 1997
- Birur, G. Bhandari, P. Mars Pathfinder Active Heat Rejection System: Successful Flight Demonstration of a Mechanically Pumped Cooling Loop Paper No. 981684, 28th Internal Conference on Environmental Systems, Danvers, Massachusetts July 13-16 1998
- Hwangbo, H. Thermal Study of Interface between the Orbiter Cold Plate and Typical Shuttle Spacecraft Payload Flight Electronics AIAA-79-0180, 1979
- Scripelliti P. Bellomo, M. Cold Plates for Spacecraft Applications Proc. Spacecraft Thermal & Environmental Control Systems Symposium, ESA SP-139, 271 284 1978
- Yasuda, A. An Experimental Study of Heat Transfer Characteristics for Honeycomb-cored Cold Plate (1st Report) IAF-98-I.6.01, 1998
- Yamada, H. An Experimental Study of Heat Transfer Characteristics for Honeycomb-cored Cold 98-3B-12 1998
- Cullimore, B.A. SINDA/FLUINT Version 4.0 User’s manual Cullimore & Ring Tech. Inc., 1997
- VDI-Warmeatlas 1st Edition Hbb-22, 1988
- Sumitomo 3M Co. Technical Memorandum, Thermophysical Properties of FC-72, 1 5 1994
- Gilmore, D.G. Satellite Thermal Control Handbook Aerospace Corp. Press 1994
- Heat Exchanger Design Handbook Single-phase convective heat transfer 2.5, 1983