Experimental analysis on heat transfer cube shape of two vertical surfaces during melting condition

Natrayan Lakshmaiya

doi:10.1117/12.2675552

10 April 2023 Experimental analysis on heat transfer cube shape of two vertical surfaces during melting condition

Natrayan Lakshmaiya

Author Affiliations +

Proceedings Volume 12616, International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022); 126160M (2023) https://doi.org/10.1117/12.2675552
Event: International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022), 2022, Istanbul, Turkey

Abstract

Following regulating temperature testing, all insulating fabric in shipping packaging burns. This paper studies the heat transfer of the leads encapsulated in a scaling steel cube. The cuboid dimensions are 40 mm x 40 mm x 50 mm. A free convection criterion is established for the double vertical sides. Insulation is installed on both the top and bottom surfaces. The method is used to visualize the movements of a rock electrode interface, mainly during the smelting of leads. Thermal imaging is a simple and non-intrusive method for determining the melting face during the dissolving of laminates. The approach continuously and immediately exhibits dynamical capturing of the development of an electrolyte interface underneath the forces of convective heat transfer. Computational research is indeed carried out to simulate the dissolving phenomena. The results are contrasted to one wall height, and a suitable feature height is proposed.

Citation Download Citation

Natrayan Lakshmaiya "Experimental analysis on heat transfer cube shape of two vertical surfaces during melting condition", Proc. SPIE 12616, International Conference on Mathematical and Statistical Physics, Computational Science, Education, and Communication (ICMSCE 2022), 126160M (10 April 2023); https://doi.org/10.1117/12.2675552

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KEYWORDS

Lead

Liquids

Convection

Metals

Interfaces

Radiography

Shape analysis

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