Numerical methods for predicting melting through the gap applied to the one-dimensional stefan problem using taylor series

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Bambang Irawan, I.N.G. Wardana, Slamet Wahyudi, Bambang Dwi Argo

2013 Applied Mathematical Sciences Vol. 7 Issue 89-92 Article Cited by 3

Abstract

There is always a gap in melting process in the contact surfaces of two materials. The gas trapped in the gap can inhibit heat transfer and cause the contact resistance. The purpose of the study was to determine the effect of the gap to the melting rate. Numerical methods applied to the one-dimensional Stefan problem using a Taylor series expansion is used to calculate the melting rate and the influence of the material properties of the melt rate. The result is a greater temperature difference between the inlet temperature (To) to the melting temperature (Tm) caused the melting speed difference δu will be larger, the smaller of the melting time difference δt. The greater of Stefan number will cause melting speed difference δu greater. The small value of latent heat (C) and density (ρ) will cause the small energy requirements for melting causing the δu a large, otherwise the small value of thermal conductivity (k) willlead to small δu so that the ratio of the value of k/ρC is the variable values of δu. © 2013 Bambang Irawan et al.

Affiliations

Department of Mechanical Engineering, Faculty of Engineering, Brawijaya University, Malang, Indonesia; Department of Agricultural Engineering, Faculty of Agricultural Technology, Brawijaya University, Malang, Indonesia; Mechanical Engineering Department, Politeknik Negeri Malang, Indonesia