Aggregation Mechanism of Particles: Effect of Ca² and Polyacrylamide on Coagulation and Flocculation of Coal Slime Water Containing Illite.

Zhe Lin; Panting Li; Dou Hou; Yali Kuang; Guanghui Wang

Illite is one of the main components in coal slime water and it sometimes makes the water extremely difficult to clarify. In this study, the aggregation mechanism of coal and illite particles was investigated using the extended Derjaguin-Landau-Verwey-Overbeek (XDLVO) theory and settling experiments of slime water containing coal and illite. The results show that electrostatic energy plays a dominant role and manifests repulsive force in the long-range (>4 nm). However, the leading role becomes a hydrophobic force determined by the polar surface interaction energy in the short-range (2 ) can lower the surface electric potential to make all particles easier to coagulate, while the surface hydrophobicity of coal and illite determines whether the particles aggregate. Cationic polyacrylamide (CPAM) can promote the sedimentation of particles flocs effectively and makes the supernatant clearer due to attractive electrostatic forces while anionic polyacrylamide (APAM) flocculates particles through the bridge mechanism. Although the hydration shell on the hydrophilic surface of illite appears to be harmful for either coagulation or flocculation, illite can accelerate sedimentation when it is attached to the coal due to its higher density.

CLUSTERING of particles; POLYACRYLAMIDE; COAGULATION; FLOCCULATION; ILLITE; ELECTROSTATIC fields

Minerals (2075-163X), 2017, Vol 7, Issue 2, p30

2075-163X

Academic Journal

10.3390/min7020030