微细通道内蒸汽直接接触间歇凝结压力振荡特性  

作　　者：李树谦 张超群 张东 侯娜娜 张猛 马坤茹[5] LI Shuqian;ZHANG Chaoqun;ZHANG Dong;HOU Nana;ZHANG Meng;MA Kunru(The Civil Engineering College,Hebei University of Water Resources and Electric Engineering,Cangzhou 061001,Hebei,China;Hebei Technology Innovation Center of Phase Change Thermal Management of Internet Data Center,Cangzhou 061001,Hebei,China;Cangzhou Technology Innovation Center of Thermal Storage and Low-grade Waste Heat Utilization of Electromagnetic Heating,Cangzhou 061001,Hebei,China;College of Energy Engineering,Hebei University of Architecture,Zhangjiakou 075132,Hebei,China;The Construction Engineering College,Hebei University of Science and Technology,Shijiazhuang 050018,Hebei,China)

机构地区：[1]河北水利电力学院土木工程系,河北沧州061001 [2]河北省数据中心相变热管理技术创新中心,河北沧州061001 [3]沧州市储热及低品位余热利用型电磁供热技术创新中心,河北沧州061001 [4]河北建筑工程学院能源工程系,河北张家口075132 [5]河北科技大学建筑工程学院,河北石家庄050018

出　　处：《化工进展》2024年第2期602-608,共7页Chemical Industry and Engineering Progress

基　　金：国家自然科学基金(51976052);河北省自然科学基金(E2020412176)。

摘　　要：为探究微尺度条件下蒸汽直接接触间歇凝结瞬时压力振荡特性,开展了T型微细通道内间歇凝结压力测量实验及频谱分析等。研究发现,在蒸汽温度100℃、蒸汽质量流量0.45g/min、过冷水温度40℃以及过冷水质量流量12.65g/min工况下,间歇凝结压力时域信号在−29.5~8.8kPa之间波动,压力值在2.5kPa附近的概率密度最大。此外,通过频谱分析发现压力频域信号的第一主频为10Hz,与1s内间歇凝结经历的周期数量相近。In order to investigate the instantaneous pressure oscillation characteristics of steam direct contact intermittent condensation under microscale conditions,experiments and spectral analysis were conducted on the measurement of intermittent condensation pressure in a T-shaped microchannel.It was found that under the working conditions of steam temperature 100℃,steam mass flow rate 0.45g/min,supercooled water temperature 40℃and supercooled water mass flow rate 12.65g/min,the time domain signal of intermittent condensation pressure fluctuates between−29.5kPa and 8.8kPa,and the probability density of the pressure value near 2.5kPa was the largest.In addition,through spectrum analysis,it was found that the first dominant frequency of the pressure frequency domain signal was 10Hz,which was similar to the number of cycles experienced by intermittent condensation within one second.

关 键 词：微细通道 直接接触 间歇凝结 压力振荡 频谱分析 

分 类 号：TK124[动力工程及工程热物理—工程热物理] TQ021[动力工程及工程热物理—热能工程]