The Characteristics Of Thermal Energy Transfer Across Solid-Liquid Interfaces Between Face-Centered Cubic Lattice Of 110 Crystal Structure And Simple Liquid At Different Reduced Temperature Of Liquid

Wong, Pak Sheng Raymond (2021) The Characteristics Of Thermal Energy Transfer Across Solid-Liquid Interfaces Between Face-Centered Cubic Lattice Of 110 Crystal Structure And Simple Liquid At Different Reduced Temperature Of Liquid. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

Text (24 Pages) The Characteristics Of Thermal Energy Transfer Across Solid-Liquid Interfaces Between Face-Centered Cubic Lattice Of 110 Crystal Structure And Simple Liquid At Different Reduced Temperature Of Liquid.pdf - Submitted Version Download (1MB)

Abstract

Solid-liquid i(S-L) interfaces are phases between a solid and a liquid. It is commonly used in lubrication and coating systems where the thermal energy transport is one of the main problems for the system. Lubrication and coating systems have been studied up to molecular scale over the last few years to find the solution for thermalitransport problem due to wear and friction. The characteristics of the thermal energy transport on the molecular scale are quite different from the conventional one. Therefore, the purpose of this study is to specifically investigate the characteristics of thermal energy transfer in the molecular scale at the solid-liquid interfaces between face-centred cubic (FCC) lattice of 110 crystal structure and simple liquid at different reduced temperature of liquid. In this numerical study, the primary issue is the surface structure of solid and the type of liquid molecules. The characteristics of the thermal energy transfer at the S-L interfaces are evaluated based on the density, temperature jump (TJ) and thermal boundary resistance (TBR) at the interfaces. It is found that the different density, TJs and TBRs can be observed for variation of liquid reduced temperature. The findings obtained show that the reduced temperature will have a substantial effect on the characteristic of thermal energy transfer at solid-liquid interfaces.

Actions (login required)

View Item