Filter cartridge endplate with integrated flow structure

The invention claimed is: 1. A filter cartridge endplate structure with an integrated flow structure, comprising: a plate with a major surface; a retention mechanism comprising: a retention flange extending from an outer rim of the plate, and a barb protruding radially from the retention flange, the barb configured to engage a catch provided in a shell so as to retain: the plate, and a filter cartridge coupled to the filter cartridge endplate structure within the shell; and a separator that protrudes axially away from the major surface of the plate, the separator including a first flow portion and a second flow portion, the first flow portion disposed radially inward relative to the second flow portion, the first and second flow portions concentrically arranged relative to the plate and disposed toward a center of the major surface of the plate. 2. The filter cartridge endplate structure of claim 1 , wherein the retention flange comprises a release bar extending axially from the retention flange away from the major surface of the plate, and wherein the barb protrudes radially from the release bar, the release bar configured to be engaged so as to disengage the barb from the catch. 3. The filter cartridge endplate structure of claim 2 , wherein the release bar is biased when the barb engages the catch, and wherein displacing the release bar against a biased direction of the release bar towards the filter cartridge endplate structure causes the barb to disengage from the catch, thereby enabling the filter cartridge to be removed from the shell. 4. The filter cartridge endplate structure of claim 1 , wherein the first flow portion includes a first channel, the second flow portion includes a second channel, the first and second channels are configured to allow axial fluid flow relative to the plate, and wherein the first and second channels are configured to allow fluid flow that is localized toward the center of the plate. 5. The filter cartridge endplate structure of claim 4 , wherein at least one of the first flow portion and the second flow portion includes a side opening in fluid communication with one of the first channel and the second channel. 6. The filter cartridge endplate structure of claim 5 , wherein the side opening is configured to direct the fluid away from the center of the plate and toward sides of the plate. 7. The filter cartridge endplate structure of claim 4 , wherein the first flow portion and the second flow portion are configured to allow a fluid to be filtered to flow toward the center of the plate and through the first channel of the first flow portion, and configured to allow filtered fluid to flow through the center of the plate and out of the filter cartridge. 8. A filter cartridge comprising a filter media with an endplate structure disposed on each end thereof, one of the endplate structures comprising: a plate with a major surface; a retention mechanism comprising: a retention flange extending from an outer rim of the plate, and a barb protruding radially from the retention flange, the barb configured to engage a catch provided in a shell so as to retain the filter cartridge within the shell; and a separator that protrudes axially away from the major surface of the plate, the separator including a first flow portion and a second flow portion, the first flow portion disposed radially inward relative to the second flow portion, the first and second flow portions concentrically arranged relative to the plate and disposed toward a center of the major surface of the plate. 9. The filter cartridge of claim 8 , wherein the retention flange comprises a release bar extending axially from the retention flange away from the major surface of the plate, and wherein the barb protrudes radially from the release bar, the release bar configured to be engaged so as to disengage the barb from the catch. 10. The filter cartridge of claim 9 , wherein the release bar is biased when the barb engages the catch, and wherein displacing the release bar against a biased direction of the release bar towards the endplate structure causes the barb to disengage from the catch, thereby enabling the filter cartridge to be removed from the shell. 11. The filter cartridge of claim 8 , wherein the first flow portion includes a first channel, the second flow portion includes a second channel, the first and second channels are configured to allow axial fluid flow relative to the plate, and wherein the first and second channels are configured to allow fluid flow that is localized toward the center of the plate. 12. The filter cartridge of claim 11 , wherein at least one of the first flow portion and the second flow portion includes a side opening in fluid communication with one of the first channel and the second channel. 13. The filter cartridge of claim 12 , wherein the side opening is configured to direct the fluid away from the center of the plate and toward sides of the plate. 14. The filter cartridge of claim 8 , wherein the first flow portion and the second flow portion are configured to allow a fluid to be filtered to flow toward the center of the plate and through the first channel of the first flow portion, and configured to allow filtered fluid to flow through the center of the plate and out of the filter cartridge.