Flow field simulation of agitating tank and fine coal conditioning

Abstract

Numerical simulation was performed to predict the flow field parameters in an agitating tank. The relationship between characteristic parameters, impeller size, and agitating speed was studied. The conditioning and flotation tests were conducted by using fine coal from Henan province in China. Based on the simulation results, the effects of velocity, shear rate, and power consumption on conditioning and flotation processes were discussed. Maximum shear rate had more notable influence on fine coal flotation indices than fluid velocity and average shear rate. The agitating mode of smaller diameter with higher speed had better performance and lower power consumption than larger diameter with lower speed for fine coal conditioning. Particle size analysis indicated that the combustible recovery and flotation efficiency of the −0.074mm fraction significantly increased with the increase of maximum shear rate.