R. Viskanta scite author profile

This paper reports on the role of natural convection on solid–liquid interface motion and heat transfer during melting and solidification of a pure metal (gallium) on a vertical wall. The measurements of the position of the phase-change boundary as well as of temperature distributions and temperature fluctuations were used as a qualitative indication of the natural convection flow regimes and structure in the melt during phase transformation taking place in a rectangular test cell heated or cooled from one of the vertical walls. For melting, the measured melt volume and heat transfer coefficients are correlated in terms of relevant dimensionless parameters. For solidification, the measured volume of metal solidified on the wall is compared with predictions based on a one-dimensional model.

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Radiation heat transfer in combustion systems

Viskanta

Mengüç

1987

Progress in Energy and Combustion Science

505

224

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Three-dimensional conjugate heat transfer in the microchannel heat sink for electronic packaging

Fedorov

Viskanta

2000

International Journal of Heat and Mass Transfer

396

149

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Natural convection solid/liquid phase change in porous media

Beckermann

Viskanta

1988

International Journal of Heat and Mass Transfer

266

131

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R. Viskanta

Heat transfer to impinging isothermal gas and flame jets

Melting and Solidification of a Pure Metal on a Vertical Wall

Radiation heat transfer in combustion systems

Three-dimensional conjugate heat transfer in the microchannel heat sink for electronic packaging

Natural convection solid/liquid phase change in porous media

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