Confined and submerged two-phase jet impingement is a compact, low-pressure-drop solution for high heat flux dissipation from electronic components. Nucleate boiling can be sustained up to significantly higher heat fluxes during two-phase jet impingement as compared to pool boiling. The increases in critical heat flux are explained via hydrodynamic mechanisms that have been debated in the literature. In this study, the two-phase flow morphology of a single subcooled jet of water that impinges on a circular heat source is visualized at high speed with synchronized top and side views of the confinement gap. The impinging jet issues from a 3.75-mm-diameter orifice that is held at a height of 2 orifice diameters above a 25.4-mm-diameter heat so...
This study comprises experimental investigations and theoretical/empirical analyses of three forced-...
Dissertation (Ph.D.) University of Alaska Fairbanks, 2008This work presents results from the numeric...
The increasing cooling demands of electronics have attracted more attention recently for heat remova...
Thermal management of high-power electronics requires cooling strategies capable of dissipating high...
The central purpose of this work is to investigate the fundamental thermal transport and turbulent f...
Confined jet impingement with boiling offers unique and attractive performance characteristics for t...
Two-phase jet impingement combines the latent heat absorbed by boiling heat transfer with the strong...
A single subcooled jet of water which undergoes boiling upon impingement on a discrete heat source i...
Local heat transfer distributions at high spatial resolution are obtained under two-phase transport ...
Two-phase jet impingement is a compact cooling technology that provides high-heat-flux dissipation a...
Graduation date: 2012Technologies such as avionics and power electronics are driving the demand for ...
The overall heat transfer rate due to boiling of an impinging subcooled liquid jet is attributed to ...
The jet impingement boiling heat transfer is investigated experimentally and numerically in a cylind...
Liquid jet impingement cooling is critical in many industrial applications. Principle applications i...
Jet impingement boiling heat transfer is a potential technique for the removal of very high heat flu...
This study comprises experimental investigations and theoretical/empirical analyses of three forced-...
Dissertation (Ph.D.) University of Alaska Fairbanks, 2008This work presents results from the numeric...
The increasing cooling demands of electronics have attracted more attention recently for heat remova...
Thermal management of high-power electronics requires cooling strategies capable of dissipating high...
The central purpose of this work is to investigate the fundamental thermal transport and turbulent f...
Confined jet impingement with boiling offers unique and attractive performance characteristics for t...
Two-phase jet impingement combines the latent heat absorbed by boiling heat transfer with the strong...
A single subcooled jet of water which undergoes boiling upon impingement on a discrete heat source i...
Local heat transfer distributions at high spatial resolution are obtained under two-phase transport ...
Two-phase jet impingement is a compact cooling technology that provides high-heat-flux dissipation a...
Graduation date: 2012Technologies such as avionics and power electronics are driving the demand for ...
The overall heat transfer rate due to boiling of an impinging subcooled liquid jet is attributed to ...
The jet impingement boiling heat transfer is investigated experimentally and numerically in a cylind...
Liquid jet impingement cooling is critical in many industrial applications. Principle applications i...
Jet impingement boiling heat transfer is a potential technique for the removal of very high heat flu...
This study comprises experimental investigations and theoretical/empirical analyses of three forced-...
Dissertation (Ph.D.) University of Alaska Fairbanks, 2008This work presents results from the numeric...
The increasing cooling demands of electronics have attracted more attention recently for heat remova...