微小重力場におけるポンプ駆動二相流体ループの熱流動特性

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Published in	混相流 Vol. 25; no. 5; pp. 479 - 486
Main Authors	河南, 治, 猿渡, 賢治, 大田, 治彦, 金井, 祐樹, 馬場, 宗明, 新本, 康久, 浅野, 等
Format	Journal Article
Language	Japanese
Published	日本混相流学会 2012
Subjects	Flow boiling Heat transfer Microgravity Parabolic flight Two-phase flow
Online Access	Get full text
ISSN	0914-2843 1881-5790
DOI	10.3811/jjmf.25.479

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Author	新本, 康久金井, 祐樹大田, 治彦馬場, 宗明浅野, 等河南, 治猿渡, 賢治
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References	[4] Ohta, H., Review of Reduced Gravity Boiling Heat Transfer: Japanese Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 272-285 (2003). [8] Ohta, H., Fujiyama, H., Inoue, K., Yamada, Y., Ishikawa, S., and Yoshida, S., Microgravity Flow Boiling in a Transparent Tube, Proc. 4th ASME-JSME Thermal Engineering Joint Conf., 547-554 (1995). [18] Baba, S., Sakai, T., Sawada, K., Kubota, C., Wada, Y., Shinmoto, Y., Ohta, H., Asano, H., Kawanami, O., Suzuki, K., Imai, R., Kawasaki, H., Fujii, K., Takayanagi, M. and Yoda, S., Proposal of Experimental Setup on Boiling Two-phase Flow On-orbit Experiments onboard Japanese Experiment Module "KIBO", Journal of Physics: Conference Series, Vol. 327, 012055 (2011). [7] Lui, R.K., Kawaji, M. and Ogushi, T., An Experimental Investigation of Subcooled Flow Boiling Heat Transfer under Microgravity Conditions, Proc. the 10th International Heat Transfer Conference, Vol. 7, 497-502 (1994). [2] Di Marco, P., Review of Reduced Gravity Boiling Heat Transfer: European Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 252-263 (2003). [12] Ma, Y. and Chung, J.N., A Study of Bubble Dynamics in Reduced Gravity Forced-Convection Boiling, Int. J. Heat Mass Transfer, Vol. 44(2), 399-415 (2001). [19] Kanai, Y., Asano, H., Baba, S., Wada, Y., Shinmoto, Y., Ohta, H., Kawanami, O., Hamada, T. and Saruwatari, K., Thermal Hydraulic Characteristics in a Mechanical Pump Driven Two-phase Flow Loop under Microgravity (Characteristics of Adiabatic One-component Two-phase Flow), Proc. JSMF Annual Meeting 2011, 110-111 (2011). [17] Baba, S., Ohtani, N., Kawanami, O., Inoue, K. and Ohta, H., Experimental Study on Effects of Dominant Forces on Heat Transfer Coefficient for Flow Boiling in Single Mini-tubes, Proc. Interdisciplinary Transport Phenomena Conference VII: Fluid, Thermal, Biological, Materials and Space Sciences, Paper No. ITP-2011-40 (2011). [14] Luciani, S., Two Phase Flow Experimental Study Inside a Microchannel: Influence of Gravity Level on Local Boiling Heat Transfer, Evaporation Condensation and Heat Transfer, 73-94, InTech, Rijeka (2011). [20] Asano, H., Baba, S., Shinmoto, Y., Ohta, H., Kawanami, O., Wada, Y., Kanai, Y., Hamada, T. and Saruwatari, K., Thermal Hydraulic Characteristics in a Mechanical Pump Driven Two-phase Flow Loop under Microgravity (Response Characteristics of Two-phase Flow Loop to Gravity Change), Proc. JSMF Annual Meeting 2011, 106-107 (2011). [9] Ohta, H., Experiments on Microgravity Boiling Heat Transfer by Using Transparent Heaters, Nucl. Eng. Design, Vol. 175, 167-180 (1997). [13] Luciani, S., Brutin, D., Le Niliot, C., Rahli, O. and Tadrist, L., Two Phase Flow Experimental Study Inside a Microchannel: Influence of Gravity Level on Local Boiling Heat Transfer, J. Heat Transfer, Vol. 130(10), 101502 (2008). [5] Di Marco, P., Kim, J., Ohta, H., Boiling Heat Transfer in Reduced Gravity Environments, Advances in Multiphase Flow and Heat Transfer, Vol. 1, 53-92 (2009). [10] Ohta, H., Microgravity Heat Transfer in Flow Boiling, Advances in Heat Transfer, Vol. 35, 1-76 (2003). [6] Saito, M., Yamaoka, N., Miyazaki, K., Kinoshita, M. and Abe, Y., Boiling Two-phase Flow under Microgravity, Nucl. Eng. Design, Vol. 146, 451-461 (1994). [11] Ma, Y. and Chung, J.N., An Experimental Study of Forced Convection Boiling in Microgravity, Int. J. Heat Mass Transfer, Vol. 41, 2371-2382 (1998). [1] Ohta, H., A Proposal of Boiling and Two-phase Flow Experiments Utilizing a Long-term Microgravity Environment, Space Utilization Research, Vol. 24, 127-130 (2008). [3] Kim, J., Review of Reduced Gravity Boiling Heat Transfer: US Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 264-271 (2003). [15] Celata G.P., Flow Boiling Heat Transfer in Microgravity: Recent Results, Microgravity Science Technology, Vol. 19(3-4), 13-17 (2007). [16] Baltis, C., Celata, G.P., Cumo, M. and Zummo, G., Gravity Influence on Heat Transfer Rate in Flow Boiling, Proc. 92th Eurotherm Seminar on Gravitational Effects on Liquid-Vapor Phase Change, CD-ROM (2011).
References_xml	– reference: [6] Saito, M., Yamaoka, N., Miyazaki, K., Kinoshita, M. and Abe, Y., Boiling Two-phase Flow under Microgravity, Nucl. Eng. Design, Vol. 146, 451-461 (1994). – reference: [7] Lui, R.K., Kawaji, M. and Ogushi, T., An Experimental Investigation of Subcooled Flow Boiling Heat Transfer under Microgravity Conditions, Proc. the 10th International Heat Transfer Conference, Vol. 7, 497-502 (1994). – reference: [17] Baba, S., Ohtani, N., Kawanami, O., Inoue, K. and Ohta, H., Experimental Study on Effects of Dominant Forces on Heat Transfer Coefficient for Flow Boiling in Single Mini-tubes, Proc. Interdisciplinary Transport Phenomena Conference VII: Fluid, Thermal, Biological, Materials and Space Sciences, Paper No. ITP-2011-40 (2011). – reference: [20] Asano, H., Baba, S., Shinmoto, Y., Ohta, H., Kawanami, O., Wada, Y., Kanai, Y., Hamada, T. and Saruwatari, K., Thermal Hydraulic Characteristics in a Mechanical Pump Driven Two-phase Flow Loop under Microgravity (Response Characteristics of Two-phase Flow Loop to Gravity Change), Proc. JSMF Annual Meeting 2011, 106-107 (2011). – reference: [3] Kim, J., Review of Reduced Gravity Boiling Heat Transfer: US Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 264-271 (2003). – reference: [16] Baltis, C., Celata, G.P., Cumo, M. and Zummo, G., Gravity Influence on Heat Transfer Rate in Flow Boiling, Proc. 92th Eurotherm Seminar on Gravitational Effects on Liquid-Vapor Phase Change, CD-ROM (2011). – reference: [4] Ohta, H., Review of Reduced Gravity Boiling Heat Transfer: Japanese Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 272-285 (2003). – reference: [11] Ma, Y. and Chung, J.N., An Experimental Study of Forced Convection Boiling in Microgravity, Int. J. Heat Mass Transfer, Vol. 41, 2371-2382 (1998). – reference: [19] Kanai, Y., Asano, H., Baba, S., Wada, Y., Shinmoto, Y., Ohta, H., Kawanami, O., Hamada, T. and Saruwatari, K., Thermal Hydraulic Characteristics in a Mechanical Pump Driven Two-phase Flow Loop under Microgravity (Characteristics of Adiabatic One-component Two-phase Flow), Proc. JSMF Annual Meeting 2011, 110-111 (2011). – reference: [2] Di Marco, P., Review of Reduced Gravity Boiling Heat Transfer: European Research, Journal of Japanese Society of Microgravity Applications, Vol. 20, 252-263 (2003). – reference: [8] Ohta, H., Fujiyama, H., Inoue, K., Yamada, Y., Ishikawa, S., and Yoshida, S., Microgravity Flow Boiling in a Transparent Tube, Proc. 4th ASME-JSME Thermal Engineering Joint Conf., 547-554 (1995). – reference: [18] Baba, S., Sakai, T., Sawada, K., Kubota, C., Wada, Y., Shinmoto, Y., Ohta, H., Asano, H., Kawanami, O., Suzuki, K., Imai, R., Kawasaki, H., Fujii, K., Takayanagi, M. and Yoda, S., Proposal of Experimental Setup on Boiling Two-phase Flow On-orbit Experiments onboard Japanese Experiment Module "KIBO", Journal of Physics: Conference Series, Vol. 327, 012055 (2011). – reference: [10] Ohta, H., Microgravity Heat Transfer in Flow Boiling, Advances in Heat Transfer, Vol. 35, 1-76 (2003). – reference: [5] Di Marco, P., Kim, J., Ohta, H., Boiling Heat Transfer in Reduced Gravity Environments, Advances in Multiphase Flow and Heat Transfer, Vol. 1, 53-92 (2009). – reference: [9] Ohta, H., Experiments on Microgravity Boiling Heat Transfer by Using Transparent Heaters, Nucl. Eng. Design, Vol. 175, 167-180 (1997). – reference: [12] Ma, Y. and Chung, J.N., A Study of Bubble Dynamics in Reduced Gravity Forced-Convection Boiling, Int. J. Heat Mass Transfer, Vol. 44(2), 399-415 (2001). – reference: [13] Luciani, S., Brutin, D., Le Niliot, C., Rahli, O. and Tadrist, L., Two Phase Flow Experimental Study Inside a Microchannel: Influence of Gravity Level on Local Boiling Heat Transfer, J. Heat Transfer, Vol. 130(10), 101502 (2008). – reference: [15] Celata G.P., Flow Boiling Heat Transfer in Microgravity: Recent Results, Microgravity Science Technology, Vol. 19(3-4), 13-17 (2007). – reference: [1] Ohta, H., A Proposal of Boiling and Two-phase Flow Experiments Utilizing a Long-term Microgravity Environment, Space Utilization Research, Vol. 24, 127-130 (2008). – reference: [14] Luciani, S., Two Phase Flow Experimental Study Inside a Microchannel: Influence of Gravity Level on Local Boiling Heat Transfer, Evaporation Condensation and Heat Transfer, 73-94, InTech, Rijeka (2011).
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SubjectTerms	Flow boiling Heat transfer Microgravity Parabolic flight Two-phase flow
Title	微小重力場におけるポンプ駆動二相流体ループの熱流動特性
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