Abstract
As the core device of a filtered containment venting system(FCVS), Venturi Scrubber is an efficient device to scrub the radioactive gases and aerosols before release into the atmosphere. The design concept of Multi-Venturi Scrubber System makes the laboratory-scale venturi scrubber research more valuable. This paper studied the injection flow rate of Venturi Scrubber in different injection arrangements. The liquid is injected horizontally and vertically to the throat at different radial position of i) at the wall of throat, ii) at the half radius of throat, and iii) at the center of Venturi Scrubber throat with a nozzle of diameter 4mm. Throat gas velocities range from 0 to 190 m/s. A constant level water tank was installed to keep water level constant during the injection process. The results showed that liquid injection modes significantly affect the injection performance. The arrangements of straight tube at center and elbow tube at center had larger injection flow rate among the others, and the injection flow rate increased as the throat gas velocity increased. The conventional wall opening (ie, straight tube at the wall) injection method had the worst injection performance. This study provides a valuable reference for the liquid injection arrangement and structural design of the Venturi Scrubber.
Highlights
As the core device of a filtered containment venting system(FCVS), Venturi Scrubber is an efficient device to scrub the airborne source items before release into the atmosphere
The aim of this paper is to present some experimental analysis of the effect of different liquid injection arrangements on injection flow rate of a self-priming Venturi Scrubber
For the straight tube or elbow tube, the closer the injection position is to the center of the Venturi Scrubber throat, the greater the injection flow rate will become
Summary
As the core device of a filtered containment venting system(FCVS), Venturi Scrubber is an efficient device to scrub the airborne source items before release into the atmosphere. The radioactive airborne source items mainly contain aerosol, iodine and methyl iodide (Eckardt and Losch, 2012). Due to small cross-sectional area of the throat, the air velocity reaches the maximum at the Venturi Scrubber throat. The airborne sources contact with the droplet surface and settle inside the droplets. This process contains many mechanisms, including inertial collision, interception capture, diffusion capture, gravity sedimentation, and electrostatic adsorption (Pulley, 1997; Ali et al, 2013)
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