Microscale evaporative cooling technologies for high heat flux microelectronics devices: Background and recent advances
Evaporation of liquid is important in a diverse range of engineering applications, such as ink-
jet printing, pesticide spraying, micro-and nanofabrication, thin-film coatings, biochemical …
jet printing, pesticide spraying, micro-and nanofabrication, thin-film coatings, biochemical …
Recent advances in vapor chamber transport characterization for high-heat-flux applications
JA Weibel, SV Garimella - Advances in Heat Transfer, 2013 - Elsevier
Owing to their high reliability, simplicity of manufacture, passive operation, and effective heat
transport, flat heat pipes and vapor chambers are used extensively in the thermal …
transport, flat heat pipes and vapor chambers are used extensively in the thermal …
A microscale model for thin-film evaporation in capillary wick structures
R Ranjan, JY Murthy, SV Garimella - International Journal of Heat and Mass …, 2011 - Elsevier
A numerical model is developed for the evaporating liquid meniscus in wick microstructures
under saturated vapor conditions. Four different wick geometries representing common …
under saturated vapor conditions. Four different wick geometries representing common …
Volume of fluid-based numerical modeling of condensation heat transfer and fluid flow characteristics in microchannels
The present work proposes a numerical model for the simulation of condensation heat
transfer and fluid flow characteristics in a single microchannel. The model was based on the …
transfer and fluid flow characteristics in a single microchannel. The model was based on the …
Exploring ultimate water capillary evaporation in nanoscale conduits
Capillary evaporation in nanoscale conduits is an efficient heat/mass transfer strategy that
has been widely utilized by both nature and mankind. Despite its broad impact, the ultimate …
has been widely utilized by both nature and mankind. Despite its broad impact, the ultimate …
[HTML][HTML] Microstructured wettability pattern for enhancing thermal performance in an ultrathin vapor chamber
We investigated the thermal performance of a novel wettability patterned evaporator for an
ultrathin vapor chamber. Because the evaporator integrates a wettability patterned substrate …
ultrathin vapor chamber. Because the evaporator integrates a wettability patterned substrate …
Analysis of the wicking and thin-film evaporation characteristics of microstructures
R Ranjan, JY Murthy, SV Garimella - 2009 - asmedigitalcollection.asme.org
The topology and geometry of microstructures play a crucial role in determining their heat
transfer performance in passive cooling devices such as heat pipes. It is therefore important …
transfer performance in passive cooling devices such as heat pipes. It is therefore important …
Parametric study of thin film evaporation from nanoporous membranes
The performance and lifetime of advanced electronics are often dictated by the ability to
dissipate heat generated within the device. Thin film evaporation from nanoporous …
dissipate heat generated within the device. Thin film evaporation from nanoporous …
Rational micro/nanostructuring for thin-film evaporation
Heat management in electronics and photonics devices is a critical challenge impeding
accelerated breakthrough in these fields. Among approaches for heat dissipation, thin-film …
accelerated breakthrough in these fields. Among approaches for heat dissipation, thin-film …
Molecular dynamics simulations of thin-film evaporation: The influence of interfacial thermal resistance on a graphene-coated heated silicon substrate
Two-phase liquid cooling on nanoengineered surfaces has shown great promise for tackling
overheating in high performance microelectronics. At the nanoscale, phase change heat …
overheating in high performance microelectronics. At the nanoscale, phase change heat …