Filter element and filter system

What is claimed is: 1 . A filter element for a filter system, the filter element comprising: a tubular element extending along a longitudinal axis between a first end and a second end and defining an internal space; a retainer element associated with the first end of the tubular element, wherein the retainer element is configured to be coupled to a first housing; a valve seat member in the internal space defined by the tubular element and positioned between the first end and the second end of the tubular element, wherein the valve seat member includes a valve seat aperture configured to provide flow communication between the first end of the tubular element and the second end of the tubular element, and wherein the valve seat aperture is configured to provide a fluid seal with a valve poppet; a first end cap associated with the first end of the tubular element, wherein the first end cap defines a first end cap opening configured to provide flow communication through the first end of the tubular element; a second end cap associated with the second end of the tubular element, wherein the second end cap defines a second end cap opening configured to provide flow communication between the internal space of the tubular element and a second housing; and filter media around the tubular element and between the first and second end caps, the filter media being configured to capture contaminates in fluid, wherein the second end cap is configured to provide a fluid seal between the filter element and a drain passage in the second housing, such that as the filter element is separated from the second housing, fluid flows from the filter element into the drain passage. 2 . The filter element of claim 1 , wherein the tubular element includes a plurality of apertures providing flow communication between the filter media and the internal space. 3 . The filter element of claim 2 , wherein the plurality of apertures are present between the valve seat member and the second end of the tubular element. 4 . The filter element of claim 1 , wherein the retainer element includes a retainer aperture configured to receive a coupler configured to couple the filter element to a first housing. 5 . The filter element of claim 4 , wherein the retainer aperture includes a circular portion and a lateral portion extending from a portion of the circular portion. 6 . The filter element of claim 1 , wherein the valve seat aperture is circular and includes a periphery configured to provide the fluid seal with the valve poppet. 7 . The filter element of claim 1 , wherein the first end cap includes a first annular wall orthogonal with respect to the longitudinal axis and coupled to the first end of the tubular element and the filter media, and wherein the first annular wall defines the first end cap opening. 8 . The filter element of claim 1 , wherein the second end cap includes a second annular wall orthogonal with respect to the longitudinal axis and coupled to the second end of the tubular element and the filter media, and wherein the second annular wall defines the second end cap opening. 9 . The filter element of claim 1 , further including a biasing element between the valve seat member and the retainer element, wherein the biasing element is configured to bias a coupler received from the first end of the tubular element toward the retainer element. 10 . A filter system comprising: a first housing configured to be coupled to a filter element; a second housing including an inlet port, an outlet port, and a drain passage, wherein the inlet port, the outlet port, and the drain passage are configured to provide flow communication between the filter system and a fluid system; a filter element coupled to the first housing and received by the second housing, the filter element including: a tubular element extending along a longitudinal axis between a first end and a second end and defining an internal space; a retainer element associated with the first end of the tubular element, wherein the retainer element is coupled to the first housing; a valve seat member in the internal space defined by the tubular element and positioned between the first end and the second end of the tubular element, wherein the valve seat member includes a valve seat aperture configured to provide flow communication between the first end of the tubular element and the second end of the tubular element, and wherein the valve seat aperture is configured to provide a fluid seal with a valve poppet; a first end cap associated with the first end of the tubular element, wherein the first end cap defines a first end cap opening configured to provide flow communication through the first end of the tubular element; a second end cap associated with the second end of the tubular element, wherein the second end cap defines a second end cap opening configured to provide flow communication between the internal space of the tubular element and the second housing; and filter media around the tubular element and between the first and second end caps, the filter media being configured to capture contaminates in fluid, wherein the second end cap is configured to provide a fluid seal between the filter element and the drain passage in the second housing, such that as the filter element is separated from the second housing, fluid flows from the filter element into the drain passage. 11 . The filter system of claim 10 , further including a tubular guide associated with the second housing, such that the tubular guide provides flow communication between the tubular element and the outlet port. 12 . The filter system of claim 11 , further including a bypass valve associated with the tubular guide, wherein the bypass valve includes a valve poppet configured to move between a first position in which the valve poppet provides a fluid seal between the valve poppet and the valve seat aperture of the valve seat member, and a second position in which flow communication is provided between the first end of the tubular element and the outlet port of the second housing via the valve seat aperture and the tubular guide. 13 . The filter system of claim 12 , wherein the bypass valve further includes a biasing member coupled to the valve poppet and the tubular guide and configured to bias the valve poppet against the valve seat aperture. 14 . The filter system of claim 13 , wherein the bypass valve is configured such that when fluid pressure in the first end of the tubular element reaches a threshold pressure, the valve poppet moves to the second position and provides flow communication between the first end of the tubular element and the outlet port of the second housing. 15 . The filter system of claim 11 , wherein the tubular element of the filter element receives at least a portion of the tubular guide. 16 . The filter system of claim 15 , further including a fluid seal between the tubular guide and the filter element. 17 . The filter system of claim 10 , further including a coupler coupling the filter element to the first housing, wherein the coupler couples the filter element to the first housing via the retainer element, and wherein the coupler and the retainer element are configured such that the first housing is uncoupled from the filter element by rotating the coupler and retainer element relative to one another for less than a full turn. 18 . A filter assembly comprising: a first housing configured to be coupled to a filter element; a second housing including an inlet port, an outlet port, and a drain passa