In recent years, heat dissipation in high heat flux devices remarkably increased and it is
anticipated to reach unprecedented levels in future devices, mainly due to increased power …

In recent years, technical advancements in high-heat-flux devices (such as high power
density and increased output performance) have led to immense heat dissipation levels that …

Nanofluid spray/jet impingement cooling is widespread and finds applications in many
scientific and industrial paradigms. Because of these ubiquities of nanofluid spray/jet …

The performance of a single spray for electronic power devices using deionized (DI) water
and pure silver (Ag) particles as well as multi-walled carbon nanotube (MCNT) particles …

Efficient thermal management system is crucial for maintaining optimal temperatures in a
comprehensive range of applications, including buildings, electronic devices, the …

Spray cooling is a heat transfer technology that has already shown its advantages and
limitations. There has been increasing interest from academia and industry in combining this …

Cooling by impinging droplets has been the subject of several studies for decades and still
is, and, in the last few years, the potential heat transfer enhancement obtained thanks to …

Enhancing spray cooling with surface structures is a common, effective approach for high
heat flux thermal management to guarantee the reliability of many high-power, high-speed …

Spray cooling experiments were carried out to study the effect of seven (7) different types of
nanofluids on heat transfer enhancement. Three different concentrations of 0.04%, 0.07 …

The current work uses SiO2 and CuO mono, mixed nanofluid to improve very-high mass-flux
spray cooling performance. At first, the modified sol–gel method based SiO2 and wet …