Sealing element, annular filter element, oil separator, and method for controlling prevailing pressure in crankcase ventilation system

What is claimed is: 1 . A filter element for an oil separator of a crankcase ventilation system, the filter element comprising: at least one filter medium surrounding a central axis, the at least one filter medium configured to separate oil from aerosol, the at least one filter medium having an axial end surface forming a covering surface extending in a radial direction relative to the central axis; a cover element formed as an annular end plate, fixed onto and fully covering the covering surface of the at least one filter medium, the cover element including: a clean fluid discharge opening configured to remove cleaned fluid from an interior of the at least one filter medium; wherein the cover element has a valve seat having an annular sealing surface surrounding the clean fluid discharge opening, the annular sealing surface configured for a pressure control valve body of the crankcase ventilation system to close against. 2 . The filter element according to claim 1 , wherein the at least one filter medium is a multi-layered non-woven wrap. 3 . The filter element according to claim 1 , wherein the cover element is formed of at least one mechanically fixed and/or rigid material; wherein the at least one mechanically fixed and/or rigid material is a moldable material selected from the set consisting of: polyurethane, polyamide, or polyamide formed from polyamide 66 with 35% glass fiber (PA 66 GF 35 ). 4 . The filter element according to claim 1 , wherein the filter element is oval-cylindrical; wherein the filter element has a cavity in the interior of the at least one filter medium; wherein a fluid to be filtered flows from the outer surface of the filter medium to the cavity; and wherein the cavity is connected directly to the clean fluid discharge opening in order to remove the cleaned fluid. 5 . The filter element according to claim 4 , wherein the cover element further includes: a tubular projection is formed on the cover element and projects axially outwardly away from the cover element and the at least one filter medium, the tubular projection having an open interior which opens through the clean fluid discharge opening into the interior of the filter medium. 6 . The filter element according to claim 5 , wherein the valve seat is arranged on the tubular projection. 7 . The filter element according to claim 6 , wherein the valve seat is arranged on an axially outer end of the tubular projection. 8 . The filter element according to claim 1 , wherein the annular sealing surface is circular, substantially flat and free of burrs. 9 . The filter element according to claim 1 , further comprising: a support contour formed as step contour on a radially outer rim of the cover element, the step contour having an upper seal support contour formed as a first circumferential radially surface of the cover element; a lower seal support contour formed as a second circumferential radially surface of the cover element; wherein the lower support surface is arranged radially outwardly from the upper seal support surface; a radial sealing element of an elastic material arranged on the upper seal support contour and configured to compress radially to seal radially between the cover element and a radially inner side of a housing receiving the filter element; an axial sealing element of an elastic material arranged on the lower seal support contour and configured to compress axially to seal axially between the cover element and a radially inner side of the housing receiving the filter element; wherein axial, as used herein, is a direction of the central axis, wherein radial, as used herein, is a direction transverse to the central axis. 10 . The filter element according to claim 9 , wherein the radial sealing element and the axial sealing element are formed together as a unitary one piece seal. 11 . An oil separator for a crankcase ventilation system, comprising: an oil separator housing including: a first housing part; and a second housing part secured to the first housing part and enclosing a chamber therein; a filter element according to claim 9 arranged in the chamber of the oil separator housing; wherein the first housing part includes at least one oil separator clean fluid outlet configured to remove the cleaned fluid; and the pressure control valve is configured to limit the negative pressure applied in the crankcase ventilation system, the pressure control valve formed in combination by: the valve seat of the filter element; and a valve closing body accommodated in the first housing part that operates in conjunction with and sealably closes against the valve seat; wherein the sealing surface of the tubular projection of the cover element of the filter element forms the valve seat against which the valve closing body sealably closes when the pressure control valve is in a closed state. 12 . The oil separator according to claim 11 , wherein the valve closing body comprises at least one valve closing body sealing element, at least on a region thereof arranged to contact with the valve seat of the filter element; and wherein the at least on a region of the at least one valve closing body is surrounded by an elastic valve closing body sealing element on the region thereof that is arranged to contact with the valve seat of the filter element. 13 . The oil separator according to claim 12 , wherein the valve closing body sealing element is formed out of at least one elastomer; wherein the at least one elastomer are selected from the set: ethylene acrylate rubber (EAR) and/or from acrylate rubber and/or from hydrogenated nitrile rubber (H)NBR. 14 . The oil separator according to claim 13 , wherein the valve closing body sealing element is connected fixedly, non-releasably to the valve closing body; wherein the valve closing body sealing element is applied onto the valve closing body by a spray process. 15 . The oil separator according to claim 11 , wherein the valve closing body is flat or level on the region thereof that faces the valve seat and contacts with the valve seat of the filter element.