The two-phase, air-water flow pattern in a DynaWhirlpool-Type centrifugal separator is investigated using timedependent, 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.
Two-phase flow field in a cylindrical hydrocyclone with tangential discharge
Belardi G
2017
Abstract
The two-phase, air-water flow pattern in a DynaWhirlpool-Type centrifugal separator is investigated using timedependent, 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.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
