This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Pulsated Two-Phase Thermosyphons for Electronic Equipment Thermal Control
Technical Paper
2002-01-2468
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Language:
English
Abstract
This work proposes some heat transfer pulsating devices as interesting alternative solution to the LHP (Loop Heat Pipe) and CPL (Capillary Pumped Loop). These devices, named pulsated two-phase thermosyphon (PTPT) by the authors, have been studied, classified and experimentally observed in previous works. In this paper the operating principles of the PTPT devices in comparison with LHPs or CPLs for thermal control applications are illustrated. Although the LHP and CPL operate in a steady state regime of heat transfer and PTPT operates in a stabilized periodic regime, some important comparisons are presented.
In conclusion the application of a PTPT could become a possible cheap choice in future in case of the thermal management of electronic devices.
Recommended Content
Authors
Citation
Fantozzi, F. and Filippeschi, S., "Pulsated Two-Phase Thermosyphons for Electronic Equipment Thermal Control," SAE Technical Paper 2002-01-2468, 2002, https://doi.org/10.4271/2002-01-2468.Also In
References
- Wolf D. A. Ernst D. M. Philips A. L. “Loop Heat Pipes - Their performance and potential” SAE paper 941575 1994
- Ku J. “Overview of Capillary Pumped Loop Technology” 29th National Heat Transfer Conference August 1993 Atlanta, USA
- Goncharov K. A. et al. “Loop Heat Pipes in Thermal Control System for OBZOR Spacecraft” SAE Paper 951555 1995
- Delil, A.A.M. Heemskerk, J.F. Test Loops for two-phase thermal management system components SAE 901272 ICES July 1990 Williamsburg, USA
- Ku J. Kroliceck E. J. McCabe M. E. Jr. Benner S. M. “A High Power Spacecraft Thermal Management System” AIAA Thermophisycs, Plasmadinamics and Lasers Conference San Antonio 1988
- Xie H. Aghazadeh M. Lui W. Haley K. Thermal solutions to Pentium Processors in TCP in Notebooks and Sub-notebooks 45th ECTC Las Vegas 1995
- Pin-Chih Chen Wei-Keng Lin The application of capillary pumped loop for cooling of electronic components Applied Thermal Engineering 21 2001
- Groll M. et al. “Thermal Control of electronic equipment by heat pipes” Re, Gen. Du Therm 37 1998
- Maezawa S. et al. “Thermal Performance of Capillary Tube Thermosyphon” 9th IHPC Albuquerque May 1995
- Cullimore B. Nikitkin M. CPL and LHP Technologies: What are the difference? What are the similarities” 28th Int. Conf. on Env. Systems SAE 981587 Denvers (USA) 1997
- Kaya T Ku J. Hoang T. T. Cheung M. K. “Mathematical Modeling of Loop Heat Pipe” 1999
- Bienert W. B. Wolf D. A. “Temperature Control of Loop Heat Pipe: Analytical Model and Tests Results” 9th IHPC Albuquerque May 1995
- Maidanik Y. et al. “Development, Analytical and Experimental Investigation of Loop Heat Pipes” 7th International Heat Pipes Conference 1990 Minsk, USSR
- Maidanik, Yu. F. Fershtater Yu. G. “Theoretical Basis and Classification of Loop Heat pipes and Capillary Pumped Loops” 10th IHPC 1997 Stuttgart, Germany
- Filippeschi S. Termosifoni bifase operanti in controgravità, PhD Tesis Pisa University 2001
- Fantozzi F. Filippeschi S. Analisi teorico sperimentale di un termosifone bifase in controgravità 18th National Congress UIT Cernobbio 2000
- Fantozzi F. Filippeschi S. “Influenza della potenza termica trasferita sui principali parametri operativi di un termosifone bifase in controgravita’” 20 th UIT National Congress Modena 2001
- Tamburini P. “T-System Proposal of a New Concept Heat Transport System” 3rd IHPC Palo Alto May 1978
- Sasin V. J. Borodkin A. A. Bolotin E. M. Le Xuang H. Fantozzi F. Development and research of a two-phase pumpless heat transport system 2nd Russian National Heat and Mass Conf. Moscow 1998
- Sasin V. J. Borodkin A. A. Feodorov V. N. “Experimental Investigation and Analytical modelling of Autoscillation Two-Phase Loop” 9th IHPC Los Alamos, U.S.A. June 1995
- Ogushi T. Murakami M Sakurai Y. Matsuda H. “A thermally-pumped Heat Transport System” Proceedings of the 15th Int. Symp. Space Tech. and Sc. May 1986
- De Beni G. Thoma H. Veneroni R. Friesen R. “Device for Passive Heat Transport” 23 Fe. 1983
- Kawabata K. Hashimoto N. Kamiya Y. Anti-Gravity Heat Pipe 10th IHPC Stuttgart 1997
- Neeper D. A. Mc Farland R. D. Some Potential Benefits of Fundamental Research for the Passive Solar Heating and Cooling of Buildings Los Alamos National Laboratory August 1982
- Ku J. “Operating Charactheristics of Loop Heat Pipe” Sae Paper n° 1999-01-2007 1999
- Collier J. Thome J. “Convective Boiling and Condensation” Clarendon Press Oxford 1994