高压静电场强化多孔介质表面沸腾传热特性研究  被引量：1

作　　者：王海 林宏 王晨 许浩洁 左磊 王军锋[1] WANG Hai;LIN Hong;WANG Chen;XU Haojie;ZUO Lei;WANG Junfeng(School of Energy and Power Engineering,Jiangsu University,Zhenjiang 212013,Jiangsu,China)

机构地区：[1]江苏大学能源与动力工程学院,江苏镇江212013

出　　处：《化工学报》2023年第7期2869-2879,共11页CIESC Journal

基　　金：国家自然科学基金项目(51806084);低品位能源利用技术及系统教育部重点实验室开放基金项目(LLEUTS-202101)。

摘　　要：采用电镀法通过调节电镀电流密度和时长制备出不同孔隙的多孔微结构表面,利用网状电极和介电流体工质AE-3000对高压静电场作用下多孔微结构表面池沸腾换热性能开展研究。通过显微可视化测量手段与沸腾传热特性实验,对比分析了高压静电场下不同多孔微结构表面沸腾换热的强化效果。实验结果表明,高压静电场在低热流区对小孔隙结构表面沸腾换热强化效果最佳,电场作用下沸腾传热系数强化因子随多孔微结构换热表面孔隙尺寸增大而减小。与无电场相比,低热流区施加场强为1600 kV/m电场后多孔微结构表面气泡脱离频率最大提升5.11倍,气泡脱离直径下降53.57%。有源电场的引入能够有效解决小孔隙结构表面沸腾气泡脱离困难、逸出阻力大等问题,提高气泡脱离效率,强化沸腾传热性能。The porous micro-structured surfaces with different pore sizes were developed by adjusting electroplating current density and duration time.Pool boiling heat transfer performance of porous micro-structured surfaces under electric field was investigated by using mesh electrodes and dielectric fluid AE-3000.Through microscopic visualization measurement and boiling heat transfer characteristics experiments,boiling heat transfer enhancement of different porous micro-structured surfaces by electric field was analyzed.The experimental results indicated maximum heat transfer enhancement was achieved in the low heat flux region on the surface with small pore structures by high-voltage electric field.It was found when electric field intensity of 1600 kV/m was applied to the porous micro-structured surfaces in the low heat flux region,bubble detachment frequency could be increased by 5.11 times,and bubble detachment diameter could be decreased by 53.57%,as compared to those without electric field.The introduction of an active electric field can effectively solve the problems of difficulty in detachment of boiling bubbles on the surface of a small pore structure and high resistance to escape,improve the efficiency of detachment of bubbles,and enhance the performance of boiling heat transfer.

关 键 词：电场 池沸腾 强化传热 多孔微结构 气泡脱离 

分 类 号：TK124[动力工程及工程热物理—工程热物理]