REFERENCES
- F. Kreith , L. Roberts , J. Sullivan , and S. Sinha , Convection Heat Transfer and Flow Phenomena of Rotating Spheres , Inter. J. Heat Mass Transfer , vol. 6 , pp. 881 – 895 , 1963 .
- R. Nordlie and F. Kreith , Convective Heat Transfer from a Rotating Sphere, Inter. Developments in Heat Transfer, ASME , pp. 461 – 467 , 1961 .
- S. Argyropoulos and A. Mikrovas , An Experimental Investigation on Natural and Forced Convection in Liquid Metals , Inter. J. of Heat and Mass Transfer , vol. 39 , pp. 547 – 561 , 1995 .
- S. Argyropoulos , A. Mikrovas , and D. A. Doutre , Dimensionless Correlations for Forced Convection in Liquid Metals, Part I: Single–Phase Flow , Metall. and Mater. Trans. , vol. 32B , pp. 239 – 246 , 2001 .
- B. Melissari and S. Argyropoulos , The Identification of Transition Convective Regimes in Liquid Metals using a Computational Approach , Progress in Comp. Fluid Dyn., An Inter. J. , vol. 4 , no. 2 , pp. 69 – 77 , 2004 .
- A. Anselmo , V. Prasad , and J. Koziol , Melting of a Sphere when Dropped in a Pool of Melt with Applications to Partially–Immersed Silicon Pellets , Heat Transfer in Metals and Containerless Process. and Manuf. , ASME Heat Transfer Division, vol. 162 , pp. 75 – 82 , 1991 .
- A. Anselmo , V. Prasad , J. Koziol , and K. Gupta , Numerical and Experimental Study of a Solid–Pellet Feed Continuous Czochralski Growth Process for Silicon Single Crystals , J. of Crystal Growth , vol. 131 , pp. 247 – 264 , 1993 .
- S. Aziz , W. Janna , and G. Jakubowski , A Comparison of Correlations for Forced Convection Heat Transfer from a Submerged Melting Ice Sphere to Flowing Water , vol. ASME Heat Transfer Division, vol. 334 , pp. 329 – 334 , 1996 .
- Y. Hao and Y. Tao , Heat Transfer Characteristics in Convective Melting of a Solid Particle in a Fluid , vol. ASME Heat Transfer Division, vol. 364-2 , pp. 207 – 212 , 1999 .
- Y. L. Hao and Y. X. Tao , Melting of a Solid Sphere under Forced and Mixed Convection: Flow Characteristics , ASME J. of Heat Transfer , vol. 123 , pp. 937 – 950 , 2001 .
- R. P. Chhabra , Bubbles, Drops and Particles in Non-Newtonian Fluids, , 2nd ed. , CRC Press , Florida , 2006 .
- F. Kreith and M. Bohn , Principles of Heat Transfer , p. 11 , 4th ed. , Harper and Row , New York , 1986 .
- V. R. Voller and C. Prakash , A Fixed Grid Numerical Modelling Methodology for Convection–Diffusion Mushy–Region Phase Change Problems , Inter. J. of Heat and Mass Transfer , vol. 30 , no. 8 , pp. 1709 – 1719 , 1987 .
- S. V. Patankar , Numerical Heat Transfer and Fluid Flow , Hemisphere Publishing , Washington , D.C. , 1980 .
- J. H. Ferziger and M. Peric , Computational Methods for Fluid Dynamics, , 2nd ed. , Springer–Verlag Berlin Heidelberg , Germany , 1999 .
- J. Caldwell and C. Chan , Spherical Solidification by the Enthalpy Method and the Heat Balance Integral Method , Appl. Math. Modell. , vol. 24 , pp. 45 – 53 , 2000 .
- I. Demirdzic , Z. Lilek , and M. Peric , Fluid Flow and Heat Transfer Test Problems for Nonorthogonal Grids: Benchmark Solutions, Inter. J. for Numer. Methods in Fluids , vol. 15, pp. 329–354, 1992.
- Y. L. Hao and Y. X. Tao , Heat Transfer Characteristics of Melting Ice Spheres under Forced and Mixed Convection , ASME J. of Heat Transfer , vol. 124 , pp. 891 – 903 , 2002 .
- H. Schlichting , Boundary Layer Theory, , 7th ed. , McGraw-Hill , New York , 1979 .