Add to ORKGHigh heat flux removal are important issue in many perspective applications such as computer chips, laser diode arrays, or boilers working on supercritical parameters. Electronic microchips constructed nowadays are model example of high heat flux removal, where the cooling system have to maintain the temperature below 358 K and take heat flux up to 300 W/cm2. One of the most efficient methods of microchips cooling turns out to be the spray cooling method. Review of installations has been accomplished for removal at high heat flux with liquid sprays. In the article are shown high flux removal characteristic and dependences, boiling critical parameters, as also the numerical method of spray cooling analysis
In this investigation, high current levels were applied to an IGBT and, using spray cooling, a heat ...
Abstract—with the rapid development of laser technology and high integrated circuit technology in th...
Energy conversion devices produce large heat loads during operation and therefore efficient thermal ...
With the rapid advancement in technology especially in the microelectronics and semiconductor indust...
With the rising demand for faster heat removal techniques in cooling high powered electronic devices...
The purpose of this literature review is to compare different cooling technologies currently in deve...
The trends in electronics industry are towards miniaturizing and increasing power needs that result ...
With the rising demand for faster heat removal techniques in cooling high powered electronic devices...
Current technologies to handle high heat fluxes include spray cooling and impingement cooling. Much ...
As one of the most promising thermal management solutions, spray cooling has the advantages of high ...
With the continuous integration and miniaturization of electronic devices, the heat transfer of the ...
Miniaturisation in avionics, electronics, and medical appliances has led to demands for rapid heat d...
With the continuous integration and miniaturization of electronic devices, the heat transfer of the ...
Heat removal from high heat flux devices such as computer chips, laser diodes, and other electronic ...
In this investigation, high current levels were applied to an IGBT and, using spray cooling, a heat ...
In this investigation, high current levels were applied to an IGBT and, using spray cooling, a heat ...
Abstract—with the rapid development of laser technology and high integrated circuit technology in th...
Energy conversion devices produce large heat loads during operation and therefore efficient thermal ...
With the rapid advancement in technology especially in the microelectronics and semiconductor indust...
With the rising demand for faster heat removal techniques in cooling high powered electronic devices...
The purpose of this literature review is to compare different cooling technologies currently in deve...
The trends in electronics industry are towards miniaturizing and increasing power needs that result ...
With the rising demand for faster heat removal techniques in cooling high powered electronic devices...
Current technologies to handle high heat fluxes include spray cooling and impingement cooling. Much ...
As one of the most promising thermal management solutions, spray cooling has the advantages of high ...
With the continuous integration and miniaturization of electronic devices, the heat transfer of the ...
Miniaturisation in avionics, electronics, and medical appliances has led to demands for rapid heat d...
With the continuous integration and miniaturization of electronic devices, the heat transfer of the ...
Heat removal from high heat flux devices such as computer chips, laser diodes, and other electronic ...
In this investigation, high current levels were applied to an IGBT and, using spray cooling, a heat ...
In this investigation, high current levels were applied to an IGBT and, using spray cooling, a heat ...
Abstract—with the rapid development of laser technology and high integrated circuit technology in th...
Energy conversion devices produce large heat loads during operation and therefore efficient thermal ...