On the other hand, adsorbent filters such as charcoal or Fuller’s earth should not be used. Generally, the viscosity of the emulsion is higher than the viscosity of the oil or water. For example, a dark green crude oil when emulsified will often appear a muddy brown color. Depth-type absorbent filters made of inorganic media or metal should be used rather than paper or wood filters of the absorbent-surface type. Water-In-Oil and Oil-In-Water Emulsion Examples In appearance, the emulsion resembles neither oil nor water. Therefore, standard filtration methods used for petroleum hydraulic oils may not be satisfactory when using water-in-oil emulsions. As a result, invert emulsions are manufactured to a viscosity level somewhat higher than that of petroleum oils used in similar hydraulic applications.ĭue to their higher specific gravity, invert emulsions hold particulate contamination in suspension much more readily than does petroleum oil. These fluids exhibit a temporary reduction in viscosity when subjected to the high shear rates, which exist in most hydraulic pumps. Use unpainted reservoirs, as invert emulsions may have a solvent effect on paints and enamels, which cover the interior of some hydraulic reservoirs. The return-line discharge should be located as far as possible from the pump intake, and the fluid returned should be discharged below the lowest fluid level expected during operation. For this reason, larger reservoirs using adequate venting and baffles may be required. Generally speaking, most invert emulsions are compatible with standard hydraulic seal material and contain anti-wear additives and corrosion and rust inhibitors.įoaming and aeration can be greater problems with water-in-oil emulsions than with petroleum oils. ![]() Freezing temperatures can cause the emulsion to break. Heat exchangers may be required in some applications. System operating temperatures should not exceed 50 degrees C (122 degrees F) to reduce the possibility of water evaporation. Where possible, use distilled or de-ionized water to avoid introducing harmful contaminants that may cause emulsion problems. Therefore, it is extremely important that the percentage of water in the emulsion be monitored on a regular (daily) basis. If the water content is increased above 45 percent, the anti-wear characteristics of the fluid will be reduced. Generally, the percentage of water must remain between 35 to 45 percent, as these fluids begin to lose their fire-resistant properties at water levels of less than 35 percent. Maintenance of the water content of these fluids is critical. This type of fluid will have better lubricating abilities than a fluid that is 95-percent water and 5-percent mineral oil with additives, but will not be as fire resistant. These types of fire-resistant hydraulic fluids are often referred to as invert emulsions, which is to say, tiny droplets of water are suspended in the oil. They can be used internally to overcome the bitter taste of oil as well as used externally to give a cooling effect. ![]() It can be easily removed from the skin surface. When oil is used as the main fluid and 40-percent water is added (emulsified) into the oil, it is described as a water-in-oil emulsion. In an oil-in-water (o-w) emulsion, the dispersed phase has oil droplets and the dispersion medium is an aqueous phase 1, 7.
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