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Special Topics & Reviews in Porous Media: An International Journal
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KEY ISSUES TO ENABLE HIGH HEAT FLUX REMOVAL EXCEEDING 10 MW/M2 BY USE OF METAL POROUS MEDIA AS A LATENT HEAT-TRANSFER DEVICE

Том 1, Выпуск 1, 2010, pp. 1-13
DOI: 10.1615/SpecialTopicsRevPorousMedia.v1.i1.10
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Kazuhisa Yuki
Department of Mechanical Engineering, Tokyo University of Science, Yamaguchi, 1-1-1 Digakudo-ri, Sanyo-onoda, Yamaguchi, 756-0884 Japan; and Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku University, Aramaki-Aoba 01, Aoba-ku, Sendai, 980-8579, Japan
Sanyo-Onoda City University, 1-1-1 Daigakudo-ri, Sanyo-Onoda, Yamaguchi 756-0815, Japan
Hidetoshi Hashizume
Department of Quantum Science and Energy Engineering, Graduate School of Engineering, Tohoku University, Japan
Saburo Toda
Department of Nuclear Engineering, Department of Quantum Science and Energy Engineering, Tohoku University, Aramaki-Aza-Aoba 01, Aoba-ku, Sendai 980-8579, Japan

Краткое описание

Heat transfer characteristics of two-phase flow in particle-sintered porous media are experimentally investigated in order to clarify the key issues to enable extremely high heat flux removal exceeding 10 MW/m2. The porous media experimented on are stainless steel particle-sintered and bronze particle-sintered compacts. The experiments under some heat flux inputs clarify that the effects of porous structure such as pore size and porosity on the heat transfer characteristics highly depend on the level of the heat flux input. The results suggest that liquid-vapor exchange due to capillary and pumping effects works effectively under several MW/m2 in this cooling system. However, under conditions exceeding the heat flux level, permeability for vapor discharge outside the porous medium becomes the most important factor in enabling the heat flux removal of over 10 MW/m2. Furthermore, in order to evaluate what kind of porous material is appropriate for higher heat removal, the two-phase flow characteristics in the porous media are simulated by the two-phase mixture model. The results show that utilizing a higher thermal-conductivity matrix facilitates a delay in the onset of the phase change near the heating wall and leads to much higher heat flux removal, even at the same liquid saturation, compared with the case utilizing a lower thermal-conductivity matrix.

Ключевые слова: metal porous media, high heat flux removal, two-phase flow, two-phase mixture model
ЛИТЕРАТУРА

  1. Araki, M., Ogawa, M., Kunugi, Ò., Ikeda, S., Satoh, K., and Suzuki, S., Experiment on heat transfer of smooth and swirl tubes under one-sided heating conditions.

  2. Ezato, K., Suzuki, S., Dairaku, M., and Akiba, M., Experimental examination of heat removal limitation of screw cooling tube at high pressure and temperature conditions.

  3. Nield, D. A. and Bejan, A., Convection in Porous Media.

  4. Patankar, S. V., Numerical Heat Transfer and Fluid Flow.

  5. Toda, S. and Yuki, K., A challenge to extremely high heat flux removal technique using a porous medium.

  6. Togashi, H., Yuki, K., and Hashizume, H., Heat transfer enhancement technique with copper fiber porous media.

  7. Udell, K. S., Heat transfer in porous media considering phase change and capillarity (The heat pipe effect).

  8. Wang, C. Y, A fixed-grid numerical algorithm for two-phase flow and heat transfer in porous media.

  9. Wang, C. Y. and Beckermann, C., A two-phase mixture model of liquid-gas flow and heat transfer in capillary porous media—I. Formulation.

  10. Wang, C. Y., Beckermann, C., and Fan, C., Numerical study of boiling and natural convection in capillary porous media using the two-phase mixture model.

  11. Yagi, S. and Kunii, D., Studies on effective thermal conduc tivities in packed beds.

  12. Yagi, S. and Kunii, D., Studies on heat transfer near wall surface in packed beds.

ЦИТИРОВАНО В

  1. HANZAWA Daiki, OKAWA Tomio, A study on phase change heat removal technique using a porous-microchannel, Transactions of the JSME (in Japanese), 81, 827, 2015. Crossref

  2. Lindner F., Pfitzner M., Mundt Ch., Experimental and Numerical Study of Multiphase, Multicomponent Flow in Porous Media with a Multiphase Mixture Model, Transport in Porous Media, 116, 1, 2017. Crossref

  3. Topics on Boiling, in Boiling, 2017. Crossref

  4. Yuki Kazuhisa, Hashizume Hidetoshi, Toda Saburo, Sagara Akio, Divertor Cooling with Sub-Channels-Inserted Metal Porous Media, Fusion Science and Technology, 64, 2, 2013. Crossref

  5. Takai Kio, Yuki Kohei, Yuki Kazuhisa, Kibushi Risako, Unno Noriyuki, Heat transfer performance of uni-directional porous heat sink for cooling of next generation on-vehicle inverter, 2017 International Conference on Electronics Packaging (ICEP), 2017. Crossref

  6. Ma Tianyu, Yuki Kazuhisa, Furusho Tadashi, Kibushi Risako, Unno Noriyuki, Suzuki Koichi, Immersion cooling technology of SiC-based on-vehicle inverter by anti-freezing liquid with subcooled boiling, 2017 International Conference on Electronics Packaging (ICEP), 2017. Crossref

  7. Yuki Kazuhisa, Cooling Technology for the Next Generation SiC On-Vehicle Inverters, Journal of Japan Institute of Electronics Packaging, 18, 2, 2015. Crossref

  8. Yuki Kazuhisa, Suzuki Koichi, Development of Functional Porous Heat Sink for Cooling High-Power Electronic Devices, Transactions of The Japan Institute of Electronics Packaging, 5, 1, 2012. Crossref

  9. Yuki Kazuhisa, Heat Transfer Enhancement Using Unidirectional Porous Media under High Heat Flux Conditions, in Porous Fluids - Advances in Fluid Flow and Transport Phenomena in Porous Media, 2021. Crossref

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