Two-phase flow field in a cylindrical hydrocyclone with tangential discharge

The two-phase, air-water flow pattern in a DynaWhirlpool type centrifugal separator is investigated using time-dependent, three-dimensional numerical simulation. The air-water interface is captured by the Volume-Of-Fluid approach, while the unresolved turbulence fluctuations are modeled via a second-order differential-stress turbulence model. The methodology is validated with available laser-Doppler data acquired on a similar separation device. The velocity field within the cyclone is thoroughly characterized for a single operating condition, revealing the presence of a stable air core that flows axially faster than the surrounding water

Numerical simulation of water-air flow pattern in a Tri-Flo cylindrical separator.

The hydrodynamics of the Tri-Flo\u2122, a two stage cylindrical cyclone used in dense media separation, is studied using Computational Fluid Dynamics. The flow field is simulated with an Euler-Euler Volume of Fluid two-phase approach and the Reynolds stress turbulence model. A unique feature of the device is that the separation medium suspension is pumped and introduced tangentially into the two cylindrical compartments while the raw feed is conveyed to the feed hopper and fed at the axial inlet. This feature allows to use less pumping energy and limits the unavoidable production of fines. The Tri-Flo\u2122 complex flow pattern is little known but central to the efficiency of the separation. The velocity field is computed within the two compartments of the separator. The interface of the air-core that forms in the inner axial part of the cylindrical sections is identified and visualized. The numerical results for a reduced-size 100 mm ID Tri-Flo\u2122 are compared against laser Doppler measurements on a transparent acrylic model (Chin\ue8, 1995) operated with water. The robustness of the model and its prediction capability are verified. The possibility to accurately predict the velocity profiles within the vessel and their dependence on the main Tri-Flo\u2122 operating and geometrical variables paves the way to a better understanding of the functioning of the separator, its design improvements and scale-up