Thermal performance of phase change material–based heat sink with hybrid fin‐metal foam structure under hypergravity conditions

Abstract: The thermal management systems or heat sinks are an integral part of electronic devices for aerospace applications. The heat transfer characteristics of the widely used phase change material (PCM)-based heat sinks under hypergravity conditions are essential in the designation of the heat sink. The current study conducts a systematic evaluation on the thermal characteristics of PCM coupled with hybrid fin-metal foam (FMF) structure under variable hypergravity conditions. A validated two-dimensional transient me… Show more

“…Yang et al [59] calculated the phase transition efficiency of gradient metal foams on the solidification process in pin fin foam structure. Chen et al [60] studied parameters of finned metal foam structure under different super-gravity conditions. Meng et al [61] changed the shape of the plate fins in the copper foam structure with fins, and observed the thermal performance of seven trapezoidal fins.…”

Design and assessments on a hybrid pin fin-metal foam structure towards enhancing melting heat transfer: An experimental study

“…Yang et al [59] calculated the phase transition efficiency of gradient metal foams on the solidification process in pin fin foam structure. Chen et al [60] studied parameters of finned metal foam structure under different super-gravity conditions. Meng et al [61] changed the shape of the plate fins in the copper foam structure with fins, and observed the thermal performance of seven trapezoidal fins.…”

Design and assessments on a hybrid pin fin-metal foam structure towards enhancing melting heat transfer: An experimental study

Evaluation and comparison of thermal performance of latent heat storage units with shell-and-tube, rectangular, and cylindrical configurations

Discharging performance evaluation and optimization of a latent heat thermal energy storage unit with helm-shaped fin