Assessment of Vapor Formation Rate and Phase Shift between Pressure Gradient and Liquid Velocity in Flat Mini Heat Pipes as a Function of Internal Structure

Abstract: Flat mini heat pipes (FMHPs) are often used in cooling systems for various power electronic components, as they rapidly dissipate high heat flux densities. The main objective of the present work is to experimentally investigate whether differences in the rate of vapor formation occur on an internal structure containing trapezoidal microchannels and porous sintered copper powder material. Several parameters, such as hydraulic diameter and fluid velocity through the material, as a function of the internal struct… Show more

“…As portable electronic devices have become smaller and more powerful, the operating chips generate more and more heat, making it difficult to dissipate in a timely manner. This results in elevated temperatures within these devices, which in turn constrains their further development [ 1 , 2 , 3 ]. Ultra-thin flattened heat pipes (UTHPs) exhibit a number of advantages, including small size, lightweight, quick startup performance, good temperature uniformity, and customizable shape [ 4 , 5 ].…”

An Experimental Study of a Composite Wick Structure for Ultra-Thin Flattened Heat Pipes

“…As portable electronic devices have become smaller and more powerful, the operating chips generate more and more heat, making it difficult to dissipate in a timely manner. This results in elevated temperatures within these devices, which in turn constrains their further development [ 1 , 2 , 3 ]. Ultra-thin flattened heat pipes (UTHPs) exhibit a number of advantages, including small size, lightweight, quick startup performance, good temperature uniformity, and customizable shape [ 4 , 5 ].…”

An Experimental Study of a Composite Wick Structure for Ultra-Thin Flattened Heat Pipes