Characterization of spray atomization and heat transfer for a swirl nozzle

Abstract: Abstract.Spray cooling, a high heat flux thermal management, has received great attention from modern industrial and technological applications, such as power electronics, high-power lasers, and conversion systems etc. The focus of the present work is to investigate the spray characteristics and heat transfer of a swirl nozzle under a low pressure drop range. An open loop spray cooling system is developed to examine the heat transfer performance of the swirl nozzle by considering the effects of nozzle pressure… Show more

“…Spray cooling is very complex phenomenon due to its dependence on many factors such as droplet size, spray angle, liquid flow rate, droplet velocity, surface roughness, nozzle to surface distance and surface enhancement. In order to further understand the heat transfer mechanism of spray cooling as well as enhance the cooling capacity, researchers have made many efforts to conduct parametric studies on spray cooling, such as liquid flow rate [1,2], spray inclination angle and surface enhancement [3], nozzle to surface distance [2][3][4], nozzle types [4], liquid used [5,6]. With the rapid development of the miniaturization and integration of electronic components, the conventional cooling methods are becoming more and more inadequate in the thermal control of electronic components.…”

Enhancement in Cooling of Electronic Components by Nanofluids

“…Spray cooling is very complex phenomenon due to its dependence on many factors such as droplet size, spray angle, liquid flow rate, droplet velocity, surface roughness, nozzle to surface distance and surface enhancement. In order to further understand the heat transfer mechanism of spray cooling as well as enhance the cooling capacity, researchers have made many efforts to conduct parametric studies on spray cooling, such as liquid flow rate [1,2], spray inclination angle and surface enhancement [3], nozzle to surface distance [2][3][4], nozzle types [4], liquid used [5,6]. With the rapid development of the miniaturization and integration of electronic components, the conventional cooling methods are becoming more and more inadequate in the thermal control of electronic components.…”

Enhancement in Cooling of Electronic Components by Nanofluids