Fluid reservoir having inlet filtering

What is claimed is: 1. An inlet filter for a reductant tank having a fill spout, comprising: a generally cylindrical base portion having an open top end and an open bottom end and mountable inside the fill spout; a mesh bag having a top connected to the generally cylindrical base portion, a folded flat bottom, and open side edges at opposing edges of the mesh bag; and a bag carrier that closes the open side edges of the mesh bag, wherein the bag carrier includes a pair of flexible legs that form external walls of the air inlet filter, one flexible leg of the pair located at each of the opposing side edges of the mesh bag and closing the opposing edges of the mesh bag so as to form one of the external walls of the air inlet filter, wherein each of the flexible legs extends longitudinally from the open bottom end of the base portion, away from the open top end of the base portion, wherein each of the flexible legs is visible in a side elevational view of the inlet filter, and wherein each of the flexible legs has an inwardly projecting arm that projects inwardly and away from the generally cylindrical base portion to form a wedge-shaped pocket. 2. The inlet filter of claim 1 , wherein the bag carrier is molded over the open side edges of the mesh bag. 3. The inlet filter of claim 1 , wherein the open bottom end of the generally cylindrical base portion includes an axially oriented groove configured to receive each leg. 4. The inlet filter of claim 1 , wherein the generally cylindrical base portion includes: an outer cylindrical structure; and a nozzle insert mounted inside the outer cylindrical structure. 5. The inlet filter of claim 4 , wherein at least one of the outer cylindrical structure and the nozzle insert includes a tab indexed to a location of the leg. 6. The inlet filter of claim 1 , wherein the mesh bag is fabricated from a synthetic fabric having a porosity of about 100-250 μm. 7. The inlet filter of claim 6 , wherein the mesh bag has an open area of about 45-50%. 8. The inlet filter of claim 1 , further including a flexible retainer to exert an inward pressure on the mesh bag at the open bottom end of the generally cylindrical base portion. 9. The inlet filter of claim 8 , wherein the generally cylindrical base portion includes protrusions at the open bottom end to facilitate retention of the mesh bag. 10. The inlet filter of claim 1 , wherein the mesh bag has a length about equal to a length of the generally cylindrical base portion. 11. The inlet filter of claim 10 , wherein the mesh bag has a width about equal to 50% of its length. 12. A reductant reservoir assembly, comprising: a reservoir having a fill spout; an inlet filter including: a generally cylindrical base portion disposed inside the fill spout; a mesh bag disposed inside the reservoir and being connected to the generally cylindrical base portion, the mesh bag having a folded bottom, and open side edges at opposing edges of the mesh bag; and a bag carrier that closes the open side edges of the mesh bag; an adapter disposed inside the fill spout to connect the inlet filter to the fill spout; and a cap to engage the adapter and close off the fill spout, wherein the bag carrier includes a pair of flexible legs that form external walls of the air inlet filter, one flexible leg of the pair located at each of the opposing side edges of the mesh bag and closing the opposing edges of the mesh bag so as to form one of the external walls of the air inlet filter, wherein each of the flexible legs extends longitudinally from the open bottom end of the base portion, away from the open top end of the base portion, and wherein each of the flexible legs has an inwardly projecting arm that projects inwardly and away from the generally cylindrical base portion. 13. The reductant reservoir assembly of claim 12 , wherein the generally cylindrical base portion includes an axially oriented groove to receive each leg. 14. The reductant reservoir assembly of claim 13 , wherein the generally cylindrical base portion includes a tab indexed to a location of the leg. 15. The reductant reservoir assembly of claim 12 , wherein the mesh bag is fabricated from a synthetic fabric having a porosity of about 100-250 μm. 16. The reductant reservoir assembly of claim 15 , wherein the mesh bag has an open area of about 45-50%. 17. The reductant reservoir assembly of claim 12 , wherein the inlet filter further includes a flexible retainer to exert an inward pressure on the mesh bag at an open bottom end of the generally cylindrical base portion. 18. A method of filtering reductant, comprising: receiving reductant through a filter located in a fill spout of a reservoir; drawing the reductant from the reservoir through a primary in-tank filter and a secondary in-tank filter; drawing reductant from the secondary in-tank filter through a pump inlet filter; pushing reductant through a pump outlet filter; and directing the reductant from the pump outlet filter to an injector, wherein the filter includes: a generally cylindrical base portion having an open top end and an open bottom end and mountable inside the fill spout; a mesh bag having a top connected to the generally cylindrical base portion, a folded flat bottom, and open side edges at opposing edges of the mesh bag; and a bag carrier that closes the open side edges of the mesh bag, wherein the bag carrier includes a pair of flexible legs that form external walls of the air inlet filter, one flexible leg of the pair located at each of the opposing side edges of the mesh bag and closing the opposing edges of the mesh bag so as to form one of the external walls of the air inlet filter, wherein each of the flexible legs extends longitudinally from the open bottom end of the base portion, away from the open top end of the base portion, and wherein each of the flexible legs has an inwardly projecting arm that projects inwardly and away from the generally cylindrical base portion to form a wedge-shaped pocket.