An arrangement for separating a hydrophobic liquid phase from a gaseous stream includes a coalescer filter, a housing, a gas flow direction arrangement, and a liquid collection arrangement. The coalescer filter includes a non-woven media of fibers. The housing includes an interior having a gas flow
An arrangement for separating a hydrophobic liquid phase from a gaseous stream includes a coalescer filter, a housing, a gas flow direction arrangement, and a liquid collection arrangement. The coalescer filter includes a non-woven media of fibers. The housing includes an interior having a gas flow inlet and a gas flow outlet. The liquid collection arrangement is positioned within the housing construction and is oriented for receiving liquid collected from the coalescer filter and drained therefrom.
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1. An arrangement for use in separating a hydrophobic liquid aerosol phase, from a gas stream, during filtration of engine crankcase gases; the arrangement comprising: a first stage coalescer filter defining a flow passageway and including a nonwoven fibrous bundle extending across the flow passagew
1. An arrangement for use in separating a hydrophobic liquid aerosol phase, from a gas stream, during filtration of engine crankcase gases; the arrangement comprising: a first stage coalescer filter defining a flow passageway and including a nonwoven fibrous bundle extending across the flow passageway and having a first upstream surface area; and a second stage filter comprising pleated media positioned downstream from the nonwoven media of fibers of the first stage coalescer; the pleated media of the second stage filter having a second upstream surface area; the first upstream surface area being no more than 10% of the second upstream surface area; the arrangement characterized in that:(a) the arrangement includes a first end cap and a second end cap; (i) the first end cap including a central gas stream inlet aperture; (b) the second stage filter comprises a tubular construction of pleated media extending between the first end cap and the second end cap; (i) the tubular construction of media defining an open tubular interior; (ii) the central gas stream inlet aperture of the first end cap being in flow communication with the open tubular interior; (c) the first stage coalescer filter is oriented in extension across the gas stream inlet aperture; and (d) the pleated media of the second stage filter, the first end cap, the second end cap, and the first stage coalescer filter are unitary in construction. 2. An arrangement according to claim 1 wherein:(a) the first upstream surface area is no more than 2% of the second upstream surface area. 3. An arrangement according to claim 1 wherein:(a) the first upstream surface area is no more than 1% of the second upstream surface area. 4. An arrangement according to claim 1 wherein:(a) the pleated media has a length extending between the first end cap and the second end cap; and (b) the arrangement further includes: (i) a tube within the open tubular interior oriented to direct fluid from the first stage coalescer filter; (A) the tube including an imperforate section extending a distance from the first end cap of 33-95% of the length of the pleated media. 5. An arrangement according to claim 4 further including:(a) a frame construction secured to the first end cap; the frame construction including a first frame piece and a second frame piece fitted together to define a retaining pocket therebetween; (i) the nonwoven fibrous bundle of the first stage coalescer filter being oriented within the retaining pocket. 6. An arrangement according to claim 5 wherein:(a) the first frame piece includes: a cylindrical wall defining an open inner volume; and a porous grid integral with the cylindrical wall and extending across the inner volume of the first frame piece; (b) the second frame piece includes: a tubular wall defining an open inner volume; and a porous grid integral with the tubular wall extending across the open inner volume of the second frame piece; (i) the nonwoven fibrous bundle of the first stage coalescer filter being positioned between the first frame piece porous grid and the second frame piece porous grid. 7. An arrangement according to claim 6 wherein:(a) the tube includes a conical section; the conical section having a tapered wall with an angle of taper of at least 1°; (i) the tapered wall including a first end adjacent to the first stage coalescer filter and an opposite second end adjacent to the second end cap; the tapered wall defining a fluid passage. 8. An arrangement according to claim 7 further including:(a) a support ring centering the frame construction within the open tubular interior; the support ring including: (i) an inner ring secured to the tapered wall adjacent to the second end of the tapered wall; (ii) an outer ring radially spaced from the inner ring; and (iii) a plurality of spokes between the inner ring and the outer ring; (A) the inner ring, outer ring, and spokes defining a plurality of gas flow passageways to allow for the flow of gas from the fluid passage of the tapered wall, around the second end of the tapered wall, through the gas flow passageways, and into the pleated media. 9. An arrangement according to claim 6 wherein:(a) the second frame piece includes an axial extension forming a ring; (b) the first end cap has an inner annular surface comprising a polymeric material positioned to form a radial seal with a housing construction, when the filter arrangement is operably positioned in a housing construction; (i) the axial extension of the second frame piece forming a ring comprising a backstop to the radial seal, when the filter arrangement is operably positioned in a housing construction. 10. An arrangement according to claim 9 wherein:(a) the inner annular surface comprises a stepped construction having a plurality of regions of decreasing diameters. 11. An arrangement according to claim 1 wherein:(a) the second end cap has an outer, axial projection oriented to form an axial seal with a housing construction, when the filter arrangement is operably positioned in a housing construction. 12. An arrangement according to claim 7 wherein:(a) the second end cap includes a central aperture in fluid communication with the second end of the tapered wall. 13. An arrangement according to claim 1 further including:(a) an insert construction secured to the first end cap; the insert construction including: a coalescer frame construction, a flow construction, and a support ring; the coalescer frame construction and the support ring being secured to the flow construction; (i) the coalescer frame construction including a first frame piece and a second frame piece; (A) the first frame piece including: a cylindrical wall defining an open inner volume; a support grid integral with the cylindrical wall and extending across the inner volume of the first frame piece; and an inner rim spaced radially inwardly of and adjacent to the cylindrical wall; the inner rim and the cylindrical wall defining material flow passages therebetween; (B) the second frame piece including: a tubular wall defining an open inner volume; a support grid integral with the tubular wall extending across the open inner volume of the second frame piece; and an axial extension forming a ring; (C) the nonwoven fibrous bundle of the first stage coalescer filter being positioned between the first frame piece support grid and the second frame piece support grid; (D) the first end cap having an inner annular sealing surface comprising a polymeric material; the ring of the second frame piece comprising a backstop to the inner annular sealing surface, when the filter arrangement is operably positioned in a housing construction; (ii) the flow construction includes a tube within the open tubular interior; (A) the tube including a tapered wall including a first end adjacent to the first stage coalescer filter and an opposite second end adjacent to the second end cap; the tapered wall defining a fluid passage therewithin; the tapered wall having an angle of taper of at least 1°; and (iii) the support ring centering the frame construction within the open tubular interior; the support ring including: (A) an inner ring secured to the tapered wall adjacent to the second end of the tapered wall; (B) an outer ring radially spaced from the inner ring; (C) a plurality of spokes between the inner ring and the outer ring; (D) the inner ring, outer ring, and spokes defining a plurality of gas flow passageways therebetween to allow for the flow of gas from the fluid passage of the tapered wall, around the second end of the tapered wall, through the gas flow passageways, and into the pleated media. 14. An arrangement according to claim 13 wherein:(a) the first frame piece and a second frame piece are secured together by a detent and recess interlock; (b) the second frame piece and the tapered wall are secured together by a detent and recess interlock; and (c) the inner ring is secured to the tapered wall by a detent and recess interlock. 15. An arrangement according to claim 1 further including:(a) a housing defining an interior and having a gas flow inlet, a gas flow outlet, and a liquid flow outlet; (i) the pleated media, the first end cap, the second end cap, and the first stage coalescer filter forming a filter element operably oriented within the housing interior; (ii) the first end cap having an annular surface comprising a polymeric material forming a radial seal with the housing. 16. A method for separating a hydrophobic liquid aerosol phase, from a gas stream, during filtration of engine crankcase gases; the method comprising:(a) directing the gas stream in a gas stream inlet aperture in an arrangement; the arrangement including a first end cap and a second end cap; (i) the first end cap including the central gas stream inlet aperture; (b) separating a liquid aerosol phase from the gas stream by directing the gas stream through a first stage coalescer filter oriented in extension across the gas stream inlet aperture; and (c) after separating a liquid aerosol phase from the gas stream, directing the gas stream through a second stage filter comprising a tubular construction of pleated media extending between the first end cap and the second end cap; (i) the tubular construction of media defining an open tubular interior; (ii) the central gas stream inlet aperture of the first end cap being in flow communication with the open tubular interior; and (iii) the pleated media of the second stage filter, the first end cap, the second end cap, and the first stage coalescer filter being unitary in construction. 17. A method according to claim 16 wherein:(a) said step of separating a liquid aerosol phase from the gas stream by directing the gas stream through a first stage coalescer filter includes directing the gas stream through a first stage coalescer filter having an upstream surface area not greater than 10% of the upstream surface area of the second stage filter. 18. A method according to claim 16 wherein:(a) said step of separating a liquid aerosol phase from the gas stream by directing the gas stream through a first stage coalescer filter includes directing the gas stream through a first stage coalescer filter having an upstream surface area not greater than 2% of the upstream surface area of the second stage filter. 19. A method according to claim 16 further comprising:(a) after said step of separating a liquid aerosol phase from the gas stream, draining the liquid aerosol phase through an aperture in one of the first and second end caps. 20. A method according to claim 19 wherein:(a) said step of draining the liquid aerosol phase includes draining the liquid aerosol phase through an aperture in the second end cap.
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