A filter assembly for filtering an exhaust gas and preventing contaminates from reaching a medical sampling instrumentation. The filter assembly comprises a hydrophobic filter media component; a first enclosure with an inlet (second) port communicating with an inwardly facing surface carrying a plurality of first channels, a first annular sidewall surrounding the first channels, and the first annular sidewall carrying a first mating feature at a free end thereof; a second enclosure having an outlet (first) port which communicating with an inwardly facing surface carrying a plurality of second channels, and a second mating feature surrounding the second channels. The first and second enclosures matingly engaging with one another so that the first and the second mating features mate with one another and the first and second enclosures define a filter chamber therebetween which captively retains the hydrophobic filter media component within the filter chamber having minimal dead space.

A scent-releasing air filter assembly for freshening air includes a shell that defines an interior space. The shell is configured to couple in-line to an air circulation unit. A fibrous material is positioned in and substantially occupies the interior space. A reservoir, which is coupled to the shell and configured to contain a fluid, is in fluid communication with the interior space. The fibrous material is permeated by the fluid that flows from the reservoir. Each of a plurality of holes is positioned in a respective opposing side of the shell. The holes are configured to allow entry of air into the interior space from a first face of the shell and to permit exit of the air from a second face of the shell. The fibrous material is configured to remove solid particulates from the air concurrent with the release of a fragrance from the fluid to the air.

A filter device has a housing plate with a sleeve extending along a longitudinal axis perpendicular to the housing plate. The sleeve guides fluid containing particles along an inner sleeve surface to separate particles from the fluid and discharge the particles via a discharge window of the sleeve. An immersion tube plate opposite the housing plate has an immersion tube projecting coaxially into the sleeve for outflow of the fluid. The immersion tube has a sealing and centering section about an outer circumference of the immersion tube that forms a sealing surface parallel to the longitudinal axis and radially seals with an inner surface of the sleeve. The sealing and centering section extends about the immersion tube to provide coaxial alignment with the sleeve. A radial and/or axial expansion of the sealing and centering section is reduced in a predetermined region of the immersion tube opposite the discharge window.

A multi-cyclone separator of a multi-stage fluid filter for cleaning gaseous fluid is provided with a plurality of cyclone cells for separating particles and/or liquid from the gaseous fluid. The cyclone cells each have an inlet for the gaseous fluid to be purified, an outlet for the gaseous fluid freed of particles and liquid, and at least one discharge window discharging the separated particles and liquid. At least one discharge chamber is provided, and the discharge windows of the cyclone cells open into the at least one discharge chamber. At least one discharge opening leads out of the at least one discharge chamber. The at least one discharge chamber tapers in a funnel shape toward the at least one discharge opening. A multi-stage fluid filter is provided with the multi-cyclone separator that is arranged upstream of a main filter of the multi-stage fluid filter.

Vehicle Engine Air Intake System and Method (to be accompanied by FIGS. 1 and 3) In a motor vehicle (12), an air filter housing (14) is at least partially defined by a cross-member (28) forming part of a structural front end module of the vehicle body. The cross-member (28) defines a recess (44) for receiving an air filter (90) and at least one air inlet aperture opening into the recess. An air filter enclosure assembly is mounted to the cross-member over an open face of the recess. The air filter enclosure assembly may include an air filter enclosure (42) and an air filter (90).

A sealed intake air system incorporates a positive connection seal interface between the air filter and the airbox with captive fasteners to provide a positive connection between the air filter and the one-piece airbox.

A clothes dryer including a device and space for fixing a dryer sheet inside a main body. The clothes dryer includes: a main body including a laundry inlet: a drum rotatably installed inside the main body; a discharge flow path configured to discharge inside air of the drum to outside of the drum; and a sheet receiver accommodating a dryer sheet for providing fragrance to inside of the drum, the sheet receiver positioned on the discharge flow path and detachably installed in the main body.

A self-excited wet gas flow measuring device, including a housing (1), the housing (1) is provided with a wet gas inlet (21), a dry gas outlet (23) and a liquid outlet (25); the middle of the housing (1) is mounted with a mist catching filter screen to divide a hollow cavity inside the housing (1) into a dry gas region (33) and a wet gas region (34); the wet gas inlet (21) and the liquid outlet (25) are both disposed in the wet gas region (34), and the dry gas outlet (23) is disposed in the dry gas region (33); a gas flowmeter (41) for metering the transmitted dry gas is provided at the dry gas outlet (23), a control device (51) is provided within the wet gas region (34), and a detection counting device (52) is provided at the liquid outlet (25).

A filter for in-line or inlet applications. The filter may include a spindle for supporting a filter element. In some embodiments, the spindle may be fixedly attached to a filter cap or filter body. The filter may be used as an in-line filter with a hose or tube on the inlet and outlet ports of the filter cap and filter body. In addition, or alternatively, a filter consistent with the present disclosure may be provided with a splash cap that allows use of the filter as a protected inlet for fluid flow. When used as an inlet filter, fluid may enter the filter through the splash cap and exit the filter through hose or tube coupled to the filter body. Both uses allow for serviceability.

Processing of liquid food (102) in a system (100) is disclosed. The liquid food (102) is provided from a balance tank (104) to a heat treatment unit 106. The heat treating unit (106) receives and heat treats the liquid food (102) to provide heat treated liquid food (102a). A filter (108) receives and filters the heat treated liquid food (102a) to provide filtered, heat treated liquid food (102b). A packaging device (110) receives and packages the filtered heat treated liquid food (102b). Filtering of the liquid food (102) takes place on a heat treated side of the system (100), as close as possible to the packaging device (110).