Coalescing Process
 Coalescing is accomplished using a device for the separation of a liquid/liquid emulsion of dispersed small discrete droplets from a basically unstable fluid where gravity alone is not sufficient to make the separation.
The coalescing process separates emulsions of two intimately dispersed, immiscible liquids, by passing them through a deep-bed fiber matrix such as a nonwoven fabric, felt or fiber mat. In an emulsion, such as water (discontinuous phase) contaminated fuel (continuous or primary phase) passes through the medium, water drops are intercepted when they impact fibers of the medium. Surface tension causes the water droplets to be stripped from the emulsion and to be captured by the fibers and to each other. As more water droplets impact those already captured, they continue to grow together or coalesce until the droplets reach such a mass that they become dislodged from the fibers and eventually, as the heavier of the two phases, drop with gravity. The lighter fuel phase migrates through the coalescing device and ultimately rises to complete the separation from the water phase. Conversely, should water be the continuous phase, then the fuel would be coalesced from the water.
As a rule, coalescers begin to lose efficiency when the difference of any two constituent fluids interfacial tensions (IFT) fall below 18-20 dynes/CM and become very difficult under 6-8 dynes/CM. The key is to use an optimum fibrous medium when separating low and/or close IFT fluids. Efficient coalescence also requires the coalescing medium be chemically compatible with the fluids being coalesced.
Coalescers are sometimes designed as a multi-stage system. The first stage, is typically a pleated element, which serves to act as a prefilter to remove solid particulate, which otherwise might plug the coalescers pores. For difficult to extremely pure separations, distillation process are sometimes employed following a coalescer to complete a process.
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