Oil–water separation using hydrocyclones enhanced by air bubbles

Abstract In order to improve the separation efficiency of dispersed oil from water by hydrocyclones, a new process of utilizing air bubbles has been developed to enhance the separation efficiency. The air bubbles attach themselves to the oil droplets and cause a decrease in the overall density of the phase, the difficulty of agglomerating can thus be circumvented. The air–liquid ratio of 1% was found to provide the best separation. When the inlet Reynolds number ranges from 14,000 to 16,000, the oil removal efficiency increases from 72% (air–liquid ratio 0%) to 85% (air–liquid ratio 1%). The process has been found to be very efficient in the separation of suspended oil from water.

[1]  R. Dawe,et al.  Gas attachment of oil droplets for gas flotation for oily wastewater cleanup , 2003 .

[2]  Jan J. Cilliers,et al.  Sub-micron particle dewatering using hydrocyclones , 2000 .

[3]  F. Boysan,et al.  Advances in Cyclone Modelling Using Unstructured Grids , 2000 .

[4]  R. D. Flack,et al.  Velocity distributions in a hydrocyclone separator , 2002 .

[5]  L. L. Min’kov,et al.  Separation of finest particles in hydrocyclones , 2004 .

[6]  G. Evans,et al.  Movement of fine particles on an air bubble surface studied using high-speed video microscopy. , 2004, Journal of colloid and interface science.

[7]  Gretchen I. Schwerzler Recycling of glaze waste through hydrocyclone separation , 2005 .

[8]  Richard A. Dawe,et al.  Photographic observations showing spreading and non- spreading of oil on gas bubbles of relevance to gas flotation for oily wastewater cleanup , 2003 .

[9]  Raj K. Rajamani,et al.  A comparative study of three turbulence-closure models for the hydrocyclone problem , 2005 .

[10]  Charles A. Petty,et al.  Flow predictions within hydrocyclones , 2001 .

[11]  Kunihiro Fukui,et al.  Particle separation performance by use of electrical hydro-cyclone , 2006 .

[12]  J. Finch,et al.  Theoretical Analysis of Multipole Magnetic Hydrocyclones , 1990 .

[13]  R. Sripriya,et al.  CFD modelling of hydrocyclone—prediction of cut size , 2005 .

[14]  I. R. Harris,et al.  The development of a magnetic hydrocyclone for processing finely-ground magnetite , 1994 .