2D Path of a Radioactive Tracer within a Lamellar Settler: Experiments and Modeling

Abstract: Determining and controlling the trajectory of solid flocs in a settler are of paramount importance to ensure the desired solid−liquid separation. This work evinces the feasibility of determining the motion of solid particles in a lamellar settler by using radioactive particle tracking and extracting relevant dynamic information from an approximate two-dimensional (2D) reconstruction. The experimental procedure involves simultaneously scanning different regions of the settler with scintillation detectors locate… Show more

“…Fleite et al demonstrate the feasibility of determining solid particle motion in a lamellar settler using radioactive particle tracking and extracting dynamic information from a two-dimensional (2D) reconstruction. Pillajetti et al employ radioactive particle tracking to investigate microscale flow fields in liquid–liquid extraction pulsed columns, focusing on a novel slotted plate design under pulsatile flow conditions.…”

Honoring Prof. Muthanna H. Al-Dahhan

“…Fleite et al demonstrate the feasibility of determining solid particle motion in a lamellar settler using radioactive particle tracking and extracting dynamic information from a two-dimensional (2D) reconstruction. Pillajetti et al employ radioactive particle tracking to investigate microscale flow fields in liquid–liquid extraction pulsed columns, focusing on a novel slotted plate design under pulsatile flow conditions.…”

Honoring Prof. Muthanna H. Al-Dahhan