References
- Takamasa , T. , Hazuku , T. , Mishima , K. , Okamoto , K. and Imai , Y. 2004 . “Surface wettability caused by radiation induced surface activation” . Thermal Sci. Eng. , 12 ( 2 ) : 39
- Takamasa , T. , Hazuku , T. , Okamoto , K. , Mishima , K. and Furuya , M. 2004 . “Wall wettability and thermohydraulic incidents caused by radiation induced surface activation” . In Proc. Japan-US Seminar of Two-Phase Flow Dynamics Nagahama , , Japan Dec. 6–11, 2004, JP16
- Hazuku , T. , Takamasa , T. , Imai , Y. and Okamoto , K. 2003 . “Radiation induced surface activation (wettability caused by self induced activation)” . In Proc. 6th ASME-JSME Thermal Engineering Joint Conf. , AJ03–362 Hawaii , , USA Mar. 16–20, 2003, TED-
- Takamasa , T. , Hazuku , T. , Okamoto , K. , Mishima , K. and Furuya , M. 2005 . “Radiation induced surface activation on Leidenfrost and quenching phenomena” . Exp. Therm. Fluid Sci. , 29 : 267
- Imai , Y. , Okamoto , K. , Madarame , H. and Takamasa , T. 2005 . “Reduction of active nucleation site density under gamma ray irradiation” . Thermal Sci. Eng. , 13 ( 5 ) : 17
- Svanholm , K. , Breghi , M. P. , D'Auria , F. and Ianiri , R. 1995 . “Halden reactor IFA-511.2 and IFA-54X: experimental series under adverse core cooling conditions” . Exp. Therm. Fluid Sci. , 11 ( 1 ) : 77
- Sugiyama , T. and Fuketa , T. 2004 . “Effect of cladding surface pre-oxidation on rod coolability under reactivity initiated accident conditions” . J. Nucl. Sci. Technol. , 41 ( 11 ) : 1083
- Chowdhury , S. K. R. and Winterton , R. H. S. 1985 . “Surface effects in pool boiling” . Int. J. Heat Mass Transfer , 28 ( 10 ) : 1881
- Hahne , E. and Diesselhorst , E. T. 1978 . “Hydrodynamic and surface effect on the peak heat flux in pool boiling” . In Proc. 6th Int. Heat Transfer Conf. Vol. 1 , 209 Toronto , , Canada Aug. 7–11, 1978
- Dhir , V. K. and Liaw , S. P. 1989 . “Framework for a united model for nucleate and transition pool boiling” . J. Heat Transfer , 111 : 739
- Auracher , H. and Marquardt , W. 2004 . “Heat transfer characteristics and mechanisms along entire boiling curves under steady-state and transient conditions” . Int. J. Heat Fluid Flow , 25 : 223
- Nishio , S. , Gotoh , T. and Nagai , N. 1998 . “Observation of boiling structures in high heat-flux boiling” . Int. J. Heat Mass Transfer , 41 : 3191
- Lüttich , T. , Marquardt , W. , Buchholz , M. and Auracher , H. 2003 . “Towards a unifying heat transfer correlation for the entire boiling curve” . In Proc. 5th Conf. on Boiling Heat Transfer , Montego Bay, Jamaica, May 4–8, 2003
- Ueda , T. and Isayama , Y. 1981 . “Critical heat flux and exit film flow rate in a flow boiling system” . Int. J. Heat Mass Transfer , 24 ( 7 ) : 1267
- Milashenko , V. I. , Nigmatulin , B. I. , Petukhov , V. V. and Trubkin , N. I. 1989 . “Burnout and distribution of liquid in evaporative channels of various length” . Int. J. Multiphase Flow , 15 ( 3 ) : 393
- Okawa , T. , Kotani , A. , Kataoka , I. and Naitoh , M. 2003 . “Prediction of the critical heat flux in annular flow using a film flow model” . J. Nucl. Sci. Technol. , 40 ( 6 ) : 388
- Okawa , T. , Kotani , A. , Kataoka , I. and Naitoh , M. 2004 . “Prediction of the critical heat flux in annular regime in various vertical channel” . Nucl. Eng. Des. , 229 : 223
- El-Genk , M. S. and Saber , H. H. 2001 . “Minimum thickness of a flowing down liquid film of a vertical surface” . Int. J. Heat Mass Transfer , 44 : 2809
- Ueda , T. , Inoue , M. and Nagatome , S. 1981 . “Critical heat flux and droplet entrainment rate in boiling of falling liquid film” . Int. J. Heat Mass Transfer , 24 ( 7 ) : 1257
- Department of JMTR . 1999 . Annual Report of JMTR FY 1997 (April 1, 1997-March 31, 1998) , JAERI-Review 99–005 Japan Atomic Energy Research Institute .
- Department of JMTR . 1994 . JMTR Irradiation Handbook , 134 Japan Atomic Energy Research Institute, [in Japanese]
- Sibamoto , Y. , Yonomoto , T. , Nakamura , H. and Nishikizawa , T. 2004 . “Planning outline of CHF experiment for small diameter tube in reactor multiple irradiation environment performed in JMTR” . In Proc. 4th Japan-Korea Symp. Nuclear Thermal Hydraulic and Safety (NTHAS4) 084 Sapporo , , Japan Nov. 28-Dec. 1, 2004, Paper No
- Kim , U. 1975 . Thermophysical Properties of Stainless Steel , ANL 75–55 Argonne National Laboratory .
- Grigull , U. and Sandner , H. 1984 . Heat Conduction 39 New York : Hemisphere Publishing Co. .
- Katto , Y. and Ohno , H. 1984 . “An improved version of the generalized correlation of critical heat flux for the forced convection boiling in uniformly heated vertical tube” . Int. J. Heat Mass Transfer , 27 : 1641
- Kureta , M. 1997 . “Flow-boiling of water in small-diameter tubes under low-pressure conditions” . In Doctor Thesis, Kyoto University 167 [in Japanese]
- Pettersen , J. 2004 . “Flow vaporization of CO2 in microchannel tubes” . Exp. Therm. Fluid Sci. , 28 : 111
- Weisman , J. and Kang , S. Y. 1981 . “Flow pattern transitions in vertical and upwardly inclined lines” . Int. J. Multiphase Flow , 7 : 271
- Mesler , R. B. 1977 . “An alternate to the Dengler and Addoms convection concept of forced convection boiling heat transfer” . AIChE J. , 23 ( 3 ) : 448
- Sun , G. and Hewitt , G. F. 2001 . “Evaporation and condensation of steam-water in a vertical tube” . Nucl. Eng. Des. , 207 : 137
- Kheshgi , H. S. and Scriven , L. E. 1991 . “Dewetting: nucleation and growth of dry region” . Chem. Eng. Sci. , 46 ( 2 ) : 519