Novel formulations of the mathematical model developments of thermal convection processes in nano liquids occupying a tilted slot for an electronic cabinet with finned heat sinks & heat generating elements
Keywords:
Convection, Thermal, Model, Simulation.Abstract
In this research article, the recent advances in the mathematical model developments of thermal convection processes in nano liquids occupying a tilted slot for an electronic cabinet with finned heat sinks & heat generating elements is presented along with its simulation results. This paper presents a comprehensive overview of recent advancements in mathematical models developed to analyze thermal convection processes in nano liquids within tilted slots of electronic cabinets equipped with finned heat sinks and heat-generating elements. As electronic devices continue to shrink in size and increase in complexity, efficient heat dissipation becomes a critical aspect for ensuring optimal performance and reliability. The utilization of nano liquids as cooling agents within tilted slots introduces a complex interplay of fluid dynamics, heat transfer, and geometric considerations. The mathematical models discussed herein delve into the intricacies of fluid behavior at the nanoscale, accounting for the effects of gravity, surface tension, and thermal conductivity within the confined spaces of electronic cabinets. The inclusion of tilted slots introduces an additional layer of complexity, necessitating a nuanced approach to understanding the thermal convection phenomena. Moreover, the incorporation of finned heat sinks and heat-generating elements requires the consideration of multi-physics interactions and the impact of varying material properties. Key topics covered include the derivation of governing equations, numerical simulations, and experimental validations. The models presented offer insights into the optimization of heat dissipation strategies for electronic cabinets, providing a foundation for designing more efficient and reliable cooling systems. Additionally, the paper highlights emerging technologies and materials that further enhance the performance of nano liquid-based thermal management systems. This comprehensive exploration of recent mathematical model developments in thermal convection processes within tilted slots of electronic cabinets not only contributes to the theoretical understanding of nano liquid cooling but also serves as a valuable resource for engineers and researchers working on the forefront of electronic device miniaturization and thermal management.