Colloidal and Sedimentation Behavior of Kaolinite Suspension in Presence of Non-Ionic Polyacrylamide (PAM)

Abstract: Colloidal behavior of kaolinite particles in water was investigated in this manuscript, without and with the addition of a polymer flocculant (non-anionic polyacrylamide (PAM)), using diverse imaging techniques in addition to LUMisizer. The addition of PAM was found to be causing the formation of bridges among particles thus increasing their settling rates to the bottom of the container. To assess the size of flocs and the potential morphology of PAM around particles and their clusters, the state of flocs form… Show more

“…Acrylamide homopolymers, such as polyacrylamide (PAM), are polymeric materials made from the polymerisation of a single acrylamide monomer, possessing a unique chain structure and properties such as viscoelasticity and the ability to form latex films. Moud [ 25 ] investigated the effect of polymeric flocculants (especially nonionic polyacrylamide, PAM) on floc formation and settling behaviour. In the absence of added PAM, the interactions between the flocs were weak, resulting in their faster settling at the bottom of the vessel.…”

Research Progress of Molecular Simulation in Acrylamide Polymers with High Degree of Polymerization

“…Acrylamide homopolymers, such as polyacrylamide (PAM), are polymeric materials made from the polymerisation of a single acrylamide monomer, possessing a unique chain structure and properties such as viscoelasticity and the ability to form latex films. Moud [ 25 ] investigated the effect of polymeric flocculants (especially nonionic polyacrylamide, PAM) on floc formation and settling behaviour. In the absence of added PAM, the interactions between the flocs were weak, resulting in their faster settling at the bottom of the vessel.…”

Research Progress of Molecular Simulation in Acrylamide Polymers with High Degree of Polymerization

Precise Determination of the Saturation Coverage of Polygons In Silico Using Exclusion Assisted Packing Technique

Examination of saturation coverage of anisotropic particles with three distinctive orientations