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RESEARCH ON DESULFURIZATION PERFORMANCE OF COMPOSITE WET SCRUBBER

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ã€Authorã€‘ ZHAO Hai-ming;LIU Yang;LIAO Xiao-le;School of Mechanical and Electrical Engineering, Central South University;State Key Laboratory of High Performance Complex Manufacturing, Central South University;

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ã€Abstractã€‘ Computational fluid dynamicsï¼ˆCFDï¼‰ technology was used to simulate the multiphase flow field and gas-liquid mass transfer process inside the composite wet scrubber in this paper. Realizable k-Îµ turbulence model was applied to simulate the gas phase flow inside the scrubber under Euler coordinate, DPM model was used to describe the motion path-line of droplets and dust particles under Lagrange coordinate, and Species Transport multicomponent chemical reaction model was used to study the impact of motor rotating speed, liquid-gas ratio and inlet SO₂ concentration and other operating parameters on desulfurization efficiency within the wet fan. In addition, the desulfurization experimental system of composite wet scrubber was established to verify the theoretical model and operating law of composite wet scrubber. The results showed that the error between the measured value and the simulated value was within 10%, and the changing rule of the desulfurization efficiency was consistent, that was, with increase of the motor speed, spray liquid-gas ratio and the pH value of Caï¼ˆOHï¼‰₂ solution, the efficiency of desulphurization increased significantly; with increases of the concentration of SO₂ in the inlet flue gas, the desulfurization efficiency decreased.æ›´å¤š è¿˜åŽŸ