The author proposed a magnetohydrodynamic correction from a horizontal surface in liquid-metal in the presence of an ideal magnetic field. The theoretical correction agrees qualitatively with the available experimental measurements made on mercury in a high magnetic field where transition/film boiling is expected.
Issue Section:
Technical Briefs
1.
Shateyi
, S.
, Sibanda
, P.
, and Motsa
, S. S.
, 2007, “Magnetohydrodynamic Flow Past a Vertical Plate With Radiative Heat Transfer
,” ASME J. Heat Transfer
0022-1481, 129
(12
), pp. 1708
–1713
.2.
Pantokratoras
, A.
, 2009, “Magnetohydrodynamic Flow Past a Vertical Plate With Radiative Heat Transfer
,” ASME J. Heat Transfer
0022-1481, 131
(2
), p. 025503
.3.
Makinde
, O. D.
, and Sibanda
, P.
, 2008, “Magnetohydrodynamic Mixed-Convective Flow and Heat and Mass Transfer Past a Vertical Plate in a Porous Medium With Constant Wall Suction
,” ASME J. Heat Transfer
0022-1481, 130
(11
), p. 112602
.4.
Bhadauria
, B. S.
, 2008, “Combined Effect of Temperature Modulation and Magnetic Field on the Onset of Convection in an Electrically Conducting-Fluid Saturated Porous Medium
,” ASME J. Heat Transfer
0022-1481, 130
(5
), p. 052601
.5.
Zhang
, H.
, Charmchi
, M.
, Veilleux
, D.
, and Faghri
, M.
, 2007, “Numerical and Experimental Investigation of Melting in the Presence of a Magnetic Field: Simulation of Low-Gravity Environment
,” ASME J. Heat Transfer
0022-1481, 129
(4
), pp. 568
–576
.6.
Fujita
, Y.
, 1992, “The State of the Art Nucleate Boiling Mechanism
,” Proceedings of the Engineering Foundation Conference on Pool and External Flow Boiling
, ASME, Santa Barbara, CA, Mar. 22–27, pp. 83
–98
.7.
Manglik
, R. M.
, 2006, “On the Advancements in Boiling, Two-Phase Flow Heat Transfer, and Interfacial Phenomena
,” ASME J. Heat Transfer
0022-1481, 128
(12
), pp. 1237
–1242
.8.
Michiyoshi
, I.
, 1988, “Boiling Heat Transfer in Liquid Metals
,” Appl. Mech. Rev.
0003-6900, 41
(3
), pp. 129
–148
.9.
Abdou
, M. A.
, The APEX TEAM
, Ying
, A.
, Morley
, N.
, Gulec
, K.
, Smolentsev
, S.
, Kotschenreuther
, M.
, Malang
, S.
, Zinkle
, S.
, Rognlien
, T.
, Fogarty
, P.
, Nelson
, B.
, Nygren
, R.
, McCarthy
, K.
, Youssef
, M. Z.
, Ghoniem
, N.
, Sze
, D.
, Wong
, C.
, Sawan
, M.
, Khater
, H.
, Woolley
, R.
, Mattas
, R.
, Moir
, R.
, Sharafat
, S.
, Brooks
, J.
, Hassanein
, A.
, Petti
, D.
, Tillack
, M.
, Ulrickson
, M.
, and Uchimoto
, T.
, 2001, “On the Exploration of Innovative Concepts for Fusion Chamber Technology
,” Fusion Eng. Des.
0920-3796, 54
, pp. 181
–247
.10.
Wong
, C. P. C.
, Barleon
, L.
, Corradini
, M.
, Fogarty
, P.
, Ghoniem
, N.
, Majumdar
, S.
, Malang
, S.
, Mattas
, R.
, McCarthy
, K.
, Merrill
, B.
, Murphy
, J.
, Nelson
, B.
, Nygren
, R.
, Sawan
, M.
, Sharafat
, S.
, Sviatoslavsky
, I.
, and Zinkle
, S.
, 2001, “Evaluation of the Tungsten Alloy Vaporizing Lithium First Wall and Blanket Concept
,” Fusion Technol.
0748-1896, 39
, pp. 815
–822
.11.
Lykoudis
, P. S.
, 1984, “Bubble Growth in a Superheated Liquid Metal in a Uniform Magnetic Field
,” Proceedings of the Fourth Beer-Sheva International Seminar on Magneto-hydrodynamic Flows and Turbulence
, Ben-Gurion University of the Negev, Beer-Sheva, Israel, Feb. 27–Mar. 2, pp. 179
–292
.12.
Takahashi
, M.
, Inoue
, A.
, and Kaneko
, T.
, 1994, “Pool Boiling Heat Transfer of Mercury in the Presence of a Strong Magnetic Field
,” Exp. Therm. Fluid Sci.
0894-1777, 8
(1
), pp. 67
–78
.13.
Berenson
, P. J.
, 1961, “Film Boiling Heat Transfer From Horizontal Surface
,” Trans. ASME, Ser. C: J. Heat Transfer
0022-1481, 83
, pp. 351
–356
.14.
Wagner
, L.
, and Lykoudis
, P.
, 1981, “Mercury Pool Boiling Under the Influence of a Horizontal Magnetic Field
,” Int. J. Heat Mass Transfer
0017-9310, 24
(4
), pp. 635
–643
.15.
Bertodano
, M. A.
, Leonardi
, S.
, and Lykoudis
, P. S.
, 1998, “Nucleate Pool Boiling of Mercury in the Presence of a Magnetic Field
,” Int. J. Heat Mass Transfer
0017-9310, 41
, pp. 3491
–3500
.Copyright © 2009
by American Society of Mechanical Engineers
You do not currently have access to this content.