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Separation is first started when the liquid enters the vessel. Due to the substantially reduced velocity, free water starts to fall out by gravity. As it progresses through the mass packed media, further separation occurs by impingement of the water droplets on the media. At the same time, solids tend to fall out as the liquid enters the vessel at reduced velocity but are further removed by filtration as the flow continues through the mass media.
Settling zones permit a natural separation of water due to the difference in the specific gravities of the two phases.
Mass packed coalescing media are available in various styles and materials. Selection is based on the condition of the liquid as to temperature, acidity and specific gravity. A second criterion is the efficiency of water and solids removal desired. Heavy solids or certain types of solids will tend to either blind off the surface of the media and/or compress them to the point that they will no longer function as a coalescer.
In the event solids are expected to be moderate to heavy (in excess of 5 ppm), consideration should be given to using the wafer type. This type permits change out of the first or second upstream wafers, which may contain a heavy load of solids, while the third and successive downstream wafers are relatively free of solids and still effective coalescers.
The outside diameter of all repacks is sized to the inside diameter of the vessel. Thus, each repack is personalized to the vessel. Further, densities will vary depending upon the media used.
Combination repacks are for use in process streams where the following conditions may be found; sulfuric acid concentrations as high as 80% - 90%, aqueous solutions with pH from 1 to 9 and temperatures up to 350ºF. They are available with alternate layers of glass fiber bat material and Type 430 metal mesh spacers to prevent excessive compression due to high solids loads.