Latest advancements in heat transfer enhancement in the micro-channel heat sinks: a review
Miniaturization of the energy systems and high powered electronic devices necessitates the
high capacity compact heat exchangers to dissipate the heat generated. Microchannel …
high capacity compact heat exchangers to dissipate the heat generated. Microchannel …
A critical review on single-phase thermo-hydraulic enhancement in geometrically modified microchannel devices
The usage of liquid-cooled microchannel heat dissipation devices is gaining importance in
thermal management of electronic components owing to miniaturization. The development …
thermal management of electronic components owing to miniaturization. The development …
Parametric study and optimization of microchannel heat sinks with various shapes
In this study, laminar single-phase fluid flow and conjugate heat transfer for three different
shapes of microchannel heat sinks (MCHS) were numerically investigated using …
shapes of microchannel heat sinks (MCHS) were numerically investigated using …
Study on the flow and heat transfer characteristics of pin-fin manifold microchannel heat sink
In order to improve the heat transfer performance of the manifold microchannel, a cylindrical
pin-fin manifold microchannel heat sink is designed on the basis of the manifold …
pin-fin manifold microchannel heat sink is designed on the basis of the manifold …
Experimental investigation of heat transfer of Al2O3 nanofluid in a microchannel heat sink
SY Jung, H Park - International Journal of Heat and Mass Transfer, 2021 - Elsevier
Microchannel heat sink (MCHS) with nanofluids has been widely utilized to improve heat
transfer performance in micro-scale mechanical systems. Although various studies have …
transfer performance in micro-scale mechanical systems. Although various studies have …
Numerical study on heat transfer characteristics of a pin–fin staggered manifold microchannel heat sink
Manifold microchannel (MMC) heat sink is an efficient thermal management solution for high
heat flux electronic devices. A pin–fin staggered manifold microchannel (PFSMMC) heat …
heat flux electronic devices. A pin–fin staggered manifold microchannel (PFSMMC) heat …
Sobol sensitivity analysis and multi-objective optimization of manifold microchannel heat sink considering entropy generation minimization
Manifold microchannel (MMC) heat sink has been widely employed as an efficient scheme
for high heat flux cooling of electronic devices. The parametric optimization design of the …
for high heat flux cooling of electronic devices. The parametric optimization design of the …
Effects of surface roughness in multiple microchannels on mixed convective heat transfer
E Mandev, E Manay - Applied Thermal Engineering, 2022 - Elsevier
The most widely used type of heat transfer in applications is convection heat transfer, and
both natural and forced convection modes have an effect in total heat transfer to a certain …
both natural and forced convection modes have an effect in total heat transfer to a certain …
[HTML][HTML] Characteristics of heat transfer and fluid flow in microchannel heat sinks with rectangular grooves and different shaped ribs
Q Zhu, K Chang, J Chen, X Zhang, H **a… - Alexandria Engineering …, 2020 - Elsevier
Microchannels are effective heat sinks for microelectronic systems. However, it remains
unclear what form of channels will be most effective in improving the overall performance of …
unclear what form of channels will be most effective in improving the overall performance of …
Numerical simulation study of thermal and hydraulic characteristics of laminar flow in microchannel heat sink with water droplet cavities and different rib columns
Q Zhu, R Su, H **a, J Zeng, J Chen - International Journal of Thermal …, 2022 - Elsevier
Microchannel heat sink is an effective technology to dissipate heat for high flux density
devices. However, it is still unknown that what geometric structure form of channel will most …
devices. However, it is still unknown that what geometric structure form of channel will most …