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Steady and unsteady air impingement heat transfer for electronics cooling applications
(ASME, 2013)
This paper focuses on two forced convection methods—steady jet flow and pulsating flow by synthetic jets—that can be used in applications requiring significant amounts of heat removal from electronics components. Given the ...
A numerical study of a single unsteady laminar slot jet in a confined structure
(ASME, 2013)
With the inherit advantages of air cooling, jet impingement can produce a factor of two or higher heat transfer than conventional fan flow over bodies. Therefore, impinging jets can solve a number of electronics thermal ...
Comparison of synthetic and steady air jets for impingement heat transfer over vertical surfaces
(IEEE, 2012)
Natural convection air cooling is the method of choice for many low-power electronics applications due to cost, availability, and reliability considerations. This method is not only limited to low-power applications, but ...
An experimental and computational study on efficiency of white LED packages with a thermocaloric approach
(IEEE, 2017)
Thermal management of light-emitting diode (LED) chips is crucial for light extraction and lifetime. It is well known that the light output of an LED decreases with the elevated temperatures. For higher light extraction, ...
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