Closure device for controlling evaporative emissions from a fuel tank

What is claimed is: 1. A closure device for controlling evaporative emissions from a fuel tank comprising: a housing defining an internal chamber about a central axis; an annular diffuser plate positioned within the internal chamber that separates the internal chamber into an upper zone and a lower zone, the diffuser plate comprising a plurality of diffuser holes that form axial passageways between the lower zone and the upper zone; a hydrocarbon adsorbing media disposed in the upper zone of the internal chamber; an inlet passageway for introducing fuel vapor from a fuel vapor inlet port to the lower zone of the internal chamber; and at least one outlet passageway extending from the upper zone of the internal chamber to an atmospheric air outlet port; wherein the upper zone and lower zone are in fluid communication via the diffuser holes in the diffuser plate; a closure plate coupled to the housing to form a roof of the internal chamber, the closure plate comprising at least one hole forming a passageway for allowing the fuel vapor to exit the internal chamber; a cap portion coupled to the housing and overlying the hole in the closure plate; and wherein the outlet passageway is a tortuous pathway extending from the hole in the closure plate to the atmospheric air outlet port; wherein the fuel vapor is delivered from the lower zone to the upper zone via the diffuser plate in a first axial direction; and wherein the outlet passageway discharges the fuel vapor into an external atmosphere via the atmospheric air outlet port in a second axial direction, the second axial direction being substantially opposite the first axial direction. 2. The closure device according to claim 1 further comprising: an upper particulate filter adjacent the closure plate; and a lower particulate filter adjacent the diffuser plate. 3. The closure device according to claim 1 wherein the lower zone of the internal chamber is substantially free of the hydrocarbon adsorbing media. 4. A closure device for controlling evaporative emissions from a fuel tank comprising: a housing having a longitudinal axis and defining an internal chamber; a first diffuser having a plurality of apertures that distribute fuel vapor from a fuel vapor inlet port into a lower zone of the internal chamber as radial flow evenly distributed circumferentially about the longitudinal axis; a second diffuser disposed in the internal chamber that separates the internal chamber into the lower zone and an upper zone, the second diffuser distributing fuel vapor from the lower zone into the upper zone as axial flow evenly distributed circumferentially about the longitudinal axis; a hydrocarbon adsorbing media disposed in the upper zone of the internal chamber; and at least one outlet passageway extending from the upper zone of the internal chamber to an atmospheric air outlet port. 5. The closure device of claim 4 wherein the fuel vapor is distributed from the lower zone into the upper zone via an annular gap formed between an edge of the second diffuser and an inner surface of the housing. 6. The closure device of claim 4 wherein the fuel vapor is distributed from the lower zone into the upper zone via a plurality of diffuser holes in the second diffuser. 7. A closure device for controlling evaporative emissions from a fuel tank comprising: a housing defining an internal chamber containing a hydrocarbon adsorbing media; an inlet passageway for introducing fuel vapor from a fuel vapor inlet port to the internal chamber; at least one outlet passageway extending from the internal chamber to an atmospheric air outlet port; a liquid entrapment filter disposed in the third longitudinal section of the inlet passageway; a tether having a first end anchored within the first longitudinal section of the inlet passageway; a diffuser plate positioned within the internal chamber that separates the internal chamber into an upper zone and a lower zone; the hydrocarbon adsorbing media disposed in the upper zone of the internal chamber; the inlet passageway introducing fuel vapor from a fuel vapor inlet port to the lower zone of the internal chamber; and the outlet passageway extending from the upper zone of the internal chamber to the atmospheric air outlet port; wherein the inlet passageway comprises a first longitudinal section having a first transverse cross-sectional area, a third longitudinal section having a third transverse cross-sectional area, and a second section disposed between the first and third longitudinal sections and having a second transverse cross-sectional area that is less than the first and third transverse cross-sectional areas. 8. The closure device according to claim 7 further comprising a tether having a first end anchored within the first longitudinal section of the inlet passageway. 9. The closure device according to claim 7 wherein the diffuser plate comprises a plurality of diffuser holes that form axial passageways between the lower zone and the upper zone. 10. The closure device according to claim 9 wherein the diffuser holes are arranged on the diffuser plate in a circumferentially equi-spaced manner about a central axis of the internal chamber. 11. The closure device according to claim 10 wherein the diffuser holes are spaced a radial distance from the central axis; and wherein the inlet passageway extends along the central axis.