本文实验研究了蒸汽以射流形态喷射入管内流动水中,发生蒸汽 水直接接触凝结所诱导的压力波动特性.实验是在蒸汽质量流速0~500 kg.m-2.s-1以及管内流动水温度20~70℃的条件下进行的.通过管道壁面安装的高频压力传感器捕获凝结诱导的压力波动信号,并通过小波多分辨率工具揭示压力波在时频平面的特性规律.小波多分辨率分析及能量分析结果表明尺度4,5(对应频率f=125~250 Hz)代表了凝结压力波的主要特征信息,而其他频带的信息几乎为0.小波多分辨率幅值结果分析表明在较高频带和较低频带压力波的小波多分辨率幅值趋近于0.在尺度4,5上(对应频率f=125~250 Hz),随着蒸汽质量流量的增大,小波多分辨率幅值先增大后减小;随着水温的升高小波多分辨率幅值逐渐增大.
参考文献
[1] | Deok Hyun YOUN;Kyung Bo KO;Young Yeon LEE;Moo Hwan KIM;Youn Young BAE;Jong Kyun PARK .The Direct Contact Condensation of Steam in a Pool at Low Mass Flux[J].Journal of Nuclear Science and Technology,2003(10):881-885. |
[2] | Binbin Qiu;Si Tang;Jiping Liu;Daotong Chong;Xinzhuang Wu.Experimental investigation on pressure oscillations caused by direct contact condensation of sonic steam jet[J].Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics,2014:270-277. |
[3] | Hong, S.J.;Park, G.C.;Cho, S.;Song, C.-H. .Condensation dynamics of submerged steam jet in subcooled water[J].International Journal of Multiphase Flow,2012(1):66-77. |
[4] | Hui Li;Yuji Tomita .Characterization of pressure fluctuationin swirling gas-solid two-phase flow in a horizontal pipe[J].Advanced Powder Technology: The internation Journal of the Society of Powder Technology, Japan,2001(2):169-185. |
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