Simulation Study on the Heat Transfer Characteristics of a Spray-Cooled Single-Pipe Cooling Tower  

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作  者:Kaiyong Hu Zhaoyi Chen Yunqing Hu Huan Sun Zhili Sun Tonghua Zou Jinghong Ning 

机构地区:[1]Tianjin Key Lab of Refrigeration Technology,Department of Refrigeration and Low Temperature Engineering,Tianjin University of Commerce,Tianjin,300134,China [2]Jiangsu Yongzhiyu Technology Development Co.,Ltd.,Xuzhou,221700,China [3]Shandong Onar Refrigeration Technology Co.,Ltd.,Binzhou,256600,China

出  处:《Fluid Dynamics & Materials Processing》2024年第9期2109-2126,共18页流体力学与材料加工(英文)

基  金:supported by the National Natural Science Foundation of China(Grant No.52376069);Shandong Province Science and Technology Small and Medium sized Enterprise Innovation Ability Enhancement Project(Grant No.2022TSGC2596).

摘  要:The current study focuses on spray cooling applied to the heat exchange components of a cooling tower.An optimization of such processes is attempted by assessing different spray flow rates and droplet sizes.For simplicity,the heat exchanger of the cooling tower is modeled as a horizontal round tube and a cooling tower spray cooling model is developed accordingly using a computational fluid dynamics(CFD)software.The study examines the influence of varying spray flow rates and droplet sizes on the heat flow intensity between the liquid layer on the surface of the cylindrical tube and the surrounding air,taking into account the number of nozzles.It is observed that on increasing the spray flow strength,the heat flow intensity and extent of the liquid film in the system are enhanced accordingly.Moreover,the magnitude of droplet size significantly impacts heat transfer.A larger droplet size decreases evaporation in the air and enhances the deposition of droplets on the round tube.This facilitates the creation of the liquid film and enhances the passage of heat between the liquid film and air.Increasing the number of nozzles,while maintaining a constant spray flow rate,results in a decrease in the flow rate of each individual nozzle.This decrease is not favorable in terms of heat transfer.

关 键 词:Spray cooling droplet sizes number of nozzles CFD 

分 类 号:TL343[核科学技术—核技术及应用]

 

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