Experimental Study on the Heat Flux at the Operating Limit of a Closed Two-Phase Thermosyphon

A closed two-phase thermosyphon is an efficient heat transfer device which is expected to be useful for waste heat recovery in high temperature range. In this study flow patterns inside a vertical thermosyphon were visually observed in detail and the relation between the flow pattern and the operati...

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Published inNihon Kikai Gakkai rombunshuu. B hen Vol. 53; no. 487; pp. 1065 - 1071
Main Authors IMUTA, Hiroshi, FUKANO, Tohru, KADOGUCHI, Katsuhiko
Format Journal Article
LanguageEnglish
Japanese
Published The Japan Society of Mechanical Engineers 1987
Subjects
Flooding
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ISSN0387-5016
1884-8346
DOI10.1299/kikaib.53.1065

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Abstract A closed two-phase thermosyphon is an efficient heat transfer device which is expected to be useful for waste heat recovery in high temperature range. In this study flow patterns inside a vertical thermosyphon were visually observed in detail and the relation between the flow pattern and the operating limit was experimentally investigated. The parameters were the inner diameter of thermosyphons, the kind and the amount of fill charge of the working fluid and the system pressure. At the operating limit the boiling of a liquid pool in an evaporator is quite violent so that the condensed liquid in the film cannot flow down into the evaporator. Then the dryout of the cooling liquid takes place on the heating wall of the evaporator. Taking this boiling-affected flooding phenomenon into consideration, a correlation was proposed, which correlates a large amount of critical heat flux data obtained by many kinds of thermosyphons by the height of the liquid pool and the bubble rising velocity. The agreement of the correlation with those data is better than that of Sakhuja's flooding correlation and Imura's.
AbstractList A closed two-phase thermosyphon is an efficient heat transfer device which is expected to be useful for waste heat recovery in high temperature range. In this study flow patterns inside a vertical thermosyphon were visually observed in detail and the relation between the flow pattern and the operating limit was experimentally investigated. The parameters were the inner diameter of thermosyphons, the kind and the amount of fill charge of the working fluid and the system pressure. At the operating limit the boiling of a liquid pool in an evaporator is quite violent so that the condensed liquid in the film cannot flow down into the evaporator. Then the dryout of the cooling liquid takes place on the heating wall of the evaporator. Taking this boiling-affected flooding phenomenon into consideration, a correlation was proposed, which correlates a large amount of critical heat flux data obtained by many kinds of thermosyphons by the height of the liquid pool and the bubble rising velocity. The agreement of the correlation with those data is better than that of Sakhuja's flooding correlation and Imura's.
Author IMUTA, Hiroshi
KADOGUCHI, Katsuhiko
FUKANO, Tohru
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crossref_primary_10_1016_0301_9322_94_90070_1
crossref_primary_10_1016_j_ijheatmasstransfer_2009_03_062
crossref_primary_10_1016_j_applthermaleng_2011_04_021
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References (7) Groll. M.,ほか2名,J. Heat Recov. Syst., 1 (1980), 55.
(13) 原田•ほか4名,日立造船技報,(昭55),7.
(8) Feldman, Jr., K.T. and Shinvisan, R., Proc. 5th Int. Heat Pipe Conf., 1 (1984), 30.
(2) Fukano, T.,ほか2名,Proc. 8th Int. Heat Transf. Conf., 5 (1986), 2325.
(4) Nguyen-Chi, H. and Groll, M., Adv. Heat Pipe Tech., (1981), 147, Pergamon Press.
(5) Imura, H.,ほか3名,Int. J. Heat Mass Transfer, 26-8 (1983), 1181.
(12) Sakhuja, R.K., ASME Publ., 73-WA/HT-7 (1973).
(10) Shiraishi, M.,ほか2名,文献(8)の11ページ.
(9) Prenger, F.C.,文献(8)の2ページ.
(1) Merrigan. M.,ほか2名,J. Heat Recov. Syst., 2-2 (1982), 125.
(14) 甲藤,機論,44-387(昭53),3908.
(3) Cohen, M.A. and Bailey, M. Sc., Proc. Inst. Mech. Eng., 169-53 (1955), 1063.
(6) Tien, C.L. and Chung, K.S., AIAA J., 17-6 (1979), 643.
(11) Wallis, G.B., One-Dimensional Two-Phase Flow, (1969), 336, McGraw-Hill, Inc.
References_xml – reference: (1) Merrigan. M.,ほか2名,J. Heat Recov. Syst., 2-2 (1982), 125.
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– reference: (14) 甲藤,機論,44-387(昭53),3908.
– reference: (11) Wallis, G.B., One-Dimensional Two-Phase Flow, (1969), 336, McGraw-Hill, Inc.
– reference: (6) Tien, C.L. and Chung, K.S., AIAA J., 17-6 (1979), 643.
– reference: (3) Cohen, M.A. and Bailey, M. Sc., Proc. Inst. Mech. Eng., 169-53 (1955), 1063.
– reference: (5) Imura, H.,ほか3名,Int. J. Heat Mass Transfer, 26-8 (1983), 1181.
– reference: (12) Sakhuja, R.K., ASME Publ., 73-WA/HT-7 (1973).
– reference: (7) Groll. M.,ほか2名,J. Heat Recov. Syst., 1 (1980), 55.
– reference: (4) Nguyen-Chi, H. and Groll, M., Adv. Heat Pipe Tech., (1981), 147, Pergamon Press.
– reference: (2) Fukano, T.,ほか2名,Proc. 8th Int. Heat Transf. Conf., 5 (1986), 2325.
– reference: (10) Shiraishi, M.,ほか2名,文献(8)の11ページ.
– reference: (9) Prenger, F.C.,文献(8)の2ページ.
– reference: (8) Feldman, Jr., K.T. and Shinvisan, R., Proc. 5th Int. Heat Pipe Conf., 1 (1984), 30.
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Snippet A closed two-phase thermosyphon is an efficient heat transfer device which is expected to be useful for waste heat recovery in high temperature range. In this...
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StartPage 1065
SubjectTerms Flooding
Title Experimental Study on the Heat Flux at the Operating Limit of a Closed Two-Phase Thermosyphon
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