论文信息 - Mathematical models for the study of solidification within a longitudinally finned heat pipe latent heat thermal storage system

Mathematical models for the study of solidification within a longitudinally finned heat pipe latent heat thermal storage system

Abstract The solidification of the phase-change material within a finned heat pipe latent heat thermal storage system is studied by means of an analytical technique considering the radial heat propagation toward the heat pipe wall and the angular propagation toward the fin. Two approximations for the temperature profile along the fin height are used: a parabolic approximation (method I) and an exponential one (method II). The position of the solid–liquid interface is plotted according to the two methods for different fin numbers and the results are compared and discussed.

[1] K. Sasaguchi,et al. Phase Change Heat Transfer During Melting and Resolidification of Melt Around Cylindrical Heat Source(s)/Sink(s) , 1989 .

[2] K. Stephan,et al. Wärmeleitung beim Erstarren geometrisch einfacher Körper , 1974 .

[3] E. Eckert,et al. Analysis of heat and mass transfer , 1971 .

[4] J. W. Westwater,et al. Extension of the numerical method for melting and freezing problems , 1970 .

[5] S. Weinbaum,et al. Perturbation solutions for melting or freezing in annular regions initially not at the fusion temperature , 1978 .