An oil/water separator for removing oil-containing constituents from an oil/water mixture includes a main filter designed to separate oil-containing constituents from the oil/water mixture. Untreated oil/water mixture is supplied to the main filter and is removed from the oil/water separator after passing through the main filter, wherein the oil/water separator is designed for supply and removal of these liquids in accordance with the hydrostatic principle. The oil/water separator has a control unit designed to temporarily charge the oil/water separator with control air, by means of which overpressure can be used to push oil/water mixture through the main filter.

A system and method for providing a filter to prevent contamination of a vacuum pump during use with a freeze dryer. The method comprises evacuating, with a vacuum pump, pressure from freeze dryer; monitoring level of oil in reservoir; circulating oil between a sedimentary filter and a coalescing filter, and the vacuum pump, whereby a low pressure generated by the vacuum pump enables flowage of the oil; collecting condensation and water vapor that evaporates from oil through an exhaust hose; collecting, in the sedimentary filter, rust, particulates, and water from oil; collecting, in coalescing filter, water vapor and particulate gas to coalesce water vapor and particulate gas into oil, water, and particulates; separating, in coalescing filter, oil from water and particulates, whereby oil is rejuvenated; injecting clean air into rejuvenated oil; and turning the vacuum off and allowing remaining oil in the static system to return to vacuum pump reservoir.

The present invention relates to a process for separating a phase (A) comprising at least one ionic liquid from a phase (B), where the phase (A) has a higher viscosity than the phase (B), which comprises the following steps: a) provision of a stream (S1) comprising a dispersion (D1) in which the phase (A) is dispersed in the phase (B), b) introduction of the stream (S1) into a coalescing device (KV), where the inflow rate of the stream (S1) is from 0.05 to 150 kg/(cm.sup.2*h) based on the average cross-sectional area of the coalescing device (KV), c) separation of the disperse phase (A) from the phase (B) in the coalescing device (KV), d) discharge of a stream (S2) comprising at least 70% by weight, preferably at least 90% by weight, of phase (A) from the coalescing device (KV) and e) discharge of a stream (S3) comprising at least 70% by weight, preferably at least 90% by weight, of phase (B) from the coalescing device (KV).

A filter apparatus includes a vessel, a filter media positioned in the vessel, a feed inlet positioned in the vessel above the filter media, and a knockout pot coupled to the vessel and arranged to collect a gas discharged from the vessel. The apparatus also includes a draft tube positioned in the vessel and filled with the filter media and an eductor including a fluid inlet, a fluid suction port, and a fluid outlet directed into the draft tube, a first fluid supply coupled to the fluid inlet to deliver a flow of a first fluid, and a conduit arranged to connect the knockout pot to the fluid suction port. The eductor operates to draw a portion of the gas into the eductor in response to the flow of the first fluid, the first fluid and the gas forming a backwash mixture that is discharged into the draft tube via the fluid outlet to induce a roll of the filter media during a backwash process.

The present invention relates to a hollow microfiber comprising (1) one or more cell-adhesive layers having a cell-adhesive hydrogel, (2) an outer shell layer having a high-strength hydrogel that covers the outer periphery of the cell-adhesive layer that is positioned farthest from the center axis among the one or more cell-adhesive layers, and (3) a cell layer that covers the inner periphery of the cell-adhesive layer that is positioned closest to the center axis among the one or more cell-adhesive layers. The present invention also relates to a method of manufacturing the hollow microfiber and a kit for carrying out the manufacturing method.

A water treatment system and method. Influent water produced from an oil and gas production or the like is circulated in a multistage unit where the water is treated by degassing the water by saturating the water with air, stripping volatile compounds from the water, evaporating non-aqueous phase liquid petroleum from the water, repeatedly stripping and equilibrating inorganic carbons in the water, subliming semi-solids from the water, and breaking colloids in the water using continuous cavitation. Water from the multistage unit is clarified through floatation and sedimentation and biological material in the water is inactivated using irradiation. Water is then filtered before being provided as treated water for an application specific process such as electro desalination reversal, fracking reuse, or other wastewater recovery.

The invention relates to a filter system for removing and/or neutralizing undissolved oils, greases and salts, preferably also floating bodies, such as metal debris, on/in water-containing emulsions from, in particular, containers and tanks that are used for holding and storing emulsions.

This disclosure generally relates to perforated filter media and coalescing filter elements utilizing perforated filter media. One example coalescing filter element is structured to separate a dispersed phase from a continuous phase of a mixture. The filter media includes a first coalescing layer. The first coalescing layer includes a first filter media. The first filter media has a plurality of pores and a first perforation. Each of the plurality of pores is smaller than the first perforation. The first perforation is formed in the first filter media and extends through the first filter media. The plurality of pores are structured to capture a portion of the dispersed phase. The first perforation is structured to facilitate the transmission of coalesced drops of the dispersed phase through the first coalescing layer such that the coalesced drops of the dispersed phase are separated from the portion of the dispersed phase captured in the first coalescing layer.

A water treatment system and method. Influent water produced from an oil and gas production or the like is circulated in a multistage unit where the water is treated by degassing the water by saturating the water with air, stripping volatile compounds from the water, evaporating non-aqueous phase liquid petroleum from the water, repeatedly stripping and equilibrating inorganic carbons in the water, subliming semi-solids from the water, and breaking colloids in the water using continuous cavitation. Water from the multistage unit is clarified through floatation and sedimentation and biological material in the water is inactivated using irradiation. Water is then filtered before being provided as treated water for an application specific process such as electro desalination reversal, fracking reuse, or other wastewater recovery.

A water separating screen for a filter element in a liquid filter, the water separating screen including: a screen fabric having end faces; and a fabric carrier; a screen fabric arranged on the fabric carrier and encircling a longitudinal axis, the screen fabric having axial end faces, the longitudinal axis defining an axial direction; wherein the fabric carrier in an area between the end faces exclusively has longitudinal struts, which at least substantially extend in the direction of the longitudinal axis and which are elastic in a radial direction.