As the miniaturization of electronic devices continues and the heat flux increases rapidly,
thermal management techniques are facing serious challenges. Microchannel heat sinks …

The present trend of miniaturization in various electronic devices has caused higher heat
generation per unit area. Dissipation of highly concentrated heat from these devices is …

Increasing complexity of electronic devices and chips places increasingly stringent
requirements on heat sinks. A novel manifold microchannel heat sink with …

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 …

In this numerical study, laminar flow of water nanofluid/GNP–SDBS (graphene nanoplatelet–
sodium dodecylbenzene sulfonate) for 0–0.1% solid nanoparticles mass fraction was …

In the present work, three-dimensional numerical investigation has been carried out to
comprehend the thermohydraulic performance of novel design of double-layer microchannel …

High-performance and miniaturized modern electronic devices demand a high value of heat
dissipation. The compactness of Microchannel Heat Sinks (MCHS) and other favourable …

Mini-channel heat sinks are popular in cooling high heat flux devices due to the high
convective heat transfer performance associated with moderate pressure drop penalty. It is …

The geometric structure of a two-dimensional (2-D) nanofluid-cooled microchannel heat sink
(NMHS) is optimized using a topology optimization method. We describe the flow and heat …

For the safe and efficient operation of concentrator photovoltaic cells and electronic chips,
low and uniform temperature should be attained. Therefore, the prime focus of this study is to …