摘要
The characteristics of pressure fluctuation in a sub me rged circulative impinging stream reactor (SCISR) were experimentally studied.Th e instantaneous signals of pressure fluctuation resulting from the turbulence in the SCISR were measured by sensors and recorded by a computer.The pressure sign als at some special positions were sampled at different rotary speeds of propell er.After analyzing the signals with the Power Spectrum method,it was found that there was an inherent frequency in the dynamic pressure signals.The inherent fr equencies of the point on the impinging plane were greater than 1000 Hz,so the pressure fluctuation was called high-frequency fluctuation.The fluctuation velo cities with high inherent frequency resulted in a strong shear force field,whic h enabled the fluid to mix quickly on the micro-scale and the agglomerates of s olid particles to disperse effectively.
The characteristics of pressure fluctuation in a submerged circulative impinging stream reactor (SCISR) were experimentally studied. The instantaneous signals of pressure fluctuation resulting from the turbulence in the SCISR were measured by sensors and recorded by a computer. The pressure signals at some special positions were sampled at different rotary speeds of propeller. After analyzing the signals with the Power Spectrum method, it was found that there was an inherent frequency in the dynamic pressure signals. The inherent frequencies of the point on the impinging plane were greater than 1000 Hz, so the pressure fluctuation was called high-frequency fluctuation. The fluctuation velocities with high inherent frequency resulted in a strong shear force field, which enabled the fluid to mix quickly on the micro-scale and the agglomerates of solid particles to disperse effectively.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2005年第2期266-269,共4页
CIESC Journal
基金
国家自然科学基金资助项目 (20176043).~~
关键词
压力脉动
撞击流
频率
反应器
Agglomeration
Frequencies
Pressure measurement
Propellers
Turbulence
