Filter system using a self-venting drain

What is claimed is: 1. A filter element that has a generally cylindrical configuration and that defines a longitudinal axis and a radial direction, the filter element comprising: a center tube that defines a central reservoir and that includes annular filter media surrounding the center tube and the central reservoir; an open end joined to the center tube disposed along the longitudinal axis, the open end including an opening allowing fluid to flow from the central reservoir to the outside of the filter element; and a closed end joined to the center tube opposite the open end disposed along the longitudinal axis, the closed end including an end cap comprising: a body that defines an attachment pocket and an air pocket that surrounds the attachment pocket in an outward radial direction and the body of the end cap includes a nominal wall that defines an outside surface that is adjacent the attachment pocket and an inside surface that is adjacent the air pocket and the inside surface of the air pocket is spaced further away from the longitudinal axis than the outside surface along the radial direction. 2. The filter element of claim 1 wherein the attachment pocket is spaced away in the axial direction along the longitudinal axis from the air pocket. 3. The filter element of claim 1 wherein the nominal wall defines a nominal wall thickness and the nominal wall jogs in the radial direction as the wall transitions from the attachment pocket to the air pocket a distance that is at least as great as the nominal wall thickness. 4. The filter element of claim 1 wherein the nominal wall defines a thickness and a base surface that partially defines the air pocket wherein the base surface extends in the radial direction from the attachment pocket and terminates at a point and the length of the base surface in the radial direction is at least 75% the nominal wall thickness. 5. The filter element of claim 1 wherein the attachment pocket is threaded. 6. A canister filter system comprising: a canister that includes an open end and a closed end; a drain that penetrates through the closed end of the canister and that includes attachment structure, and a filter element that includes a generally cylindrical configuration and that defines a longitudinal axis and a radial direction, the filter element comprising: a center tube that defines a central reservoir and that includes annular filter media surrounding the center tube and the central reservoir; an open end joined to the center tube disposed along the longitudinal axis, the open end including an opening allowing fluid to flow from the central reservoir to the outside of the filter element; and a closed end joined to the center tube opposite the open end disposed along the longitudinal axis, the closed end including an end cap comprising: a body that defines an attachment pocket and an air pocket that surrounds the attachment pocket in an outward radial direction and the body of the end cap includes a nominal wall that defines an outside surface that is adjacent the attachment pocket and an inside surface that is adjacent the air pocket and the inside surface of the air pocket is spaced further away from the longitudinal axis than the outside surface along the radial direction. 7. The canister filter system of claim 6 wherein the drain defines at least one vent passage and one liquid flow passage that are in fluid communication with the air pocket. 8. The canister filter system of claim 6 wherein the drain defines a vent passage and a liquid flow passage that are in fluid communication with the air pocket and the drain further comprises a partition between the vent passage and the liquid flow passage that is configured to keep liquid away from the vent passage. 9. The canister filter system of claim 6 wherein the drain defines a vent passage and a liquid flow passage and the canister defines a liquid reservoir and the liquid flow passage is positioned between the vent passage and the liquid reservoir along a radial direction from the longitudinal axis. 10. The canister filter system of claim 6 wherein the drain defines a liquid flow passage that is in fluid communication with the air pocket and the drain includes a stop that is configured to contact the end cap when closed and contact the canister when opened and the distance from the stop to the canister along the longitudinal axis is more than the distance from the stop to the entrance of a fluid flow passage along the longitudinal axis. 11. The canister filter system of claim 10 wherein the difference between the distances defines a gap between the drain and the end cap measured along the longitudinal axis. 12. The canister filter system of claim 8 wherein the drain includes a stop that is configured to contact the end cap when closed and contact the canister when opened wherein the height of the partition that is the minimum dimension measured along the longitudinal axis from the stop member to the top of the partition is greater than the distance that is the minimum dimension from the stop member to the canister when the drain is in the closed configuration measured along the longitudinal axis. 13. The canister filter system of claim 6 wherein the drain comprises a first end and a second end that are disposed along the longitudinal axis at opposite ends, wherein the drain defines at least one vent passage and at least one liquid flow passage and its first end includes attachment structure and the second end includes an anti-capillary flow feature that is configured to limit the flow of liquid from the liquid flow passage to the vent passage. 14. The canister filter system of claim 6 wherein the drain defines at least one vent passage and at least one liquid flow passage and a side vent opening and the liquid flow passage is positioned between the side vent opening and the vent passage along the radial direction. 15. The canister filter system of claim 13 wherein the anti-capillary flow feature comprises a concave surface. 16. The canister filter system of claim 6 wherein the drain defines a longitudinal bore that is concentric with the longitudinal axis that is configured to act as a vent passage. 17. The canister filter system of claim 6 wherein the drain defines at least one vent passage and at least one liquid flow passage that extend solely along the longitudinal axis. 18. The canister filter system of claim 17 wherein the liquid flow passage defines a polygonal perimeter. 19. The canister filter system of claim 6 wherein the drain defines a plurality of liquid flow passages and further comprises a funnel member that is configured to collect flow from each of the passages. 20. The canister filter system of claim 6 further comprising a base that includes an inlet channel for allowing fluid into the canister filter system and an outlet channel for allowing fluid out from the canister filter system and attachment structure for allowing the attachment of the canister.