Concave fuel cell knock out drain

What is claimed is: 1. A vehicle comprising: a high-voltage bus; an electric motor electrically coupled to the high-voltage bus; and a fuel cell system electrically coupled to the high-voltage bus, wherein the fuel cell system includes a fuel stack, a reservoir in fluid connection with the fuel stack, wherein the reservoir has a generally concave bottom wall extending upwardly into and forming an apex within a cavity of the reservoir, wherein the reservoir further includes a valve receptacle extending from a sidewall of the reservoir into the cavity of the reservoir, wherein the valve receptacle defines a drain aperture and an outlet orifice having a bottom edge disposed proximate the apex of the bottom wall, a drain tube in fluid communication with the drain aperture, and a solenoid valve disposed within the valve receptacle and adapted to control fluid communication between the outlet orifice and the drain aperture. 2. The vehicle of claim 1 , wherein the fuel cell system comprises an anode side, a cathode side, and a membrane disposed therebetween. 3. The vehicle of claim 2 , wherein the reservoir includes an inlet adapted to receive a fluid mixture of hydrogen gas, nitrogen gas, and water from an output of the anode side of the fuel stack. 4. The vehicle of claim 1 , wherein at least a portion of the concave bottom wall extends upwardly into the cavity of the reservoir at an angle between approximately 15 and 25 degrees relative to a horizontal plane extending between bottom edges of sidewalls of the reservoir. 5. The vehicle of claim 1 , wherein at least a portion of the valve receptacle protrudes through the concave, generally conically-shaped bottom wall. 6. The vehicle of claim 1 , wherein at a first vehicle inclination in a first slope direction, a water level is maintained at a predetermined height proximate the apex of the bottom wall. 7. The vehicle of claim 6 , wherein at a second vehicle inclination in a second slope direction opposite the first slope direction, the water level is maintained at the predetermined height proximate the apex of the bottom wall. 8. A fuel cell system comprising: a fuel stack; and a reservoir in fluid connection with the fuel stack, the reservoir having a concave, generally conically-shaped bottom wall forming an apex within a cavity of the reservoir, the reservoir further including a valve receptacle extending into the cavity of the reservoir, the valve receptacle defining a drain aperture and an outlet orifice having a bottom edge disposed at the apex of the bottom wall. 9. The fuel cell system of claim 8 , wherein the valve receptacle is a tubular valve receptacle that extends into the cavity of the reservoir. 10. The fuel cell system of claim 9 , wherein the valve receptacle includes an abutment surface disposed within the cavity of the reservoir between longitudinal walls of the tubular valve receptacle, and wherein the abutment surface defines the outlet orifice. 11. The fuel cell system of claim 8 , wherein the concave, generally conically-shaped bottom wall extends upwardly into the cavity of the reservoir at an angle between approximately 15 and 25 degrees relative to a horizontal plane extending between bottom edges of sidewalls of the reservoir. 12. The fuel cell system of claim 8 , further comprising a control valve disposed within the valve receptacle and adapted to control fluid communication between the outlet orifice and the drain aperture. 13. The fuel cell system of claim 8 , wherein the outlet orifice substantially extends in a plane generally orthogonal to a plane defined by the drain aperture. 14. The fuel cell system of claim 8 , wherein the outlet orifice is substantially circular. 15. The fuel cell system of claim 8 , wherein the outlet orifice is substantially triangular and is oriented such that a first corner and a second corner of the substantially triangular outlet orifice are disposed above a third corner of the substantially triangular outlet orifice. 16. A water removal system for a fuel cell comprising: a reservoir in fluid connection with the fuel cell, the reservoir having a concave, generally conically-shaped bottom wall forming an apex within a cavity of the reservoir, the reservoir further including a valve receptacle extending into the cavity of the reservoir, the valve receptacle defining a drain aperture and an outlet orifice having a bottom edge disposed at the apex of the bottom wall. 17. The water removal system of claim 16 , wherein the concave, generally conically-shaped bottom wall extends upwardly into the cavity of the reservoir at an angle between approximately 15 and 25 degrees relative to a horizontal plane extending between bottom edges of sidewalls of the reservoir. 18. The water removal system of claim 16 , further comprising a control valve disposed within the valve receptacle and adapted to control fluid communication between the outlet orifice and the drain aperture. 19. The water removal system of claim 16 , wherein at a first vehicle inclination in a first slope direction, a water level is maintained at a predetermined height proximate the apex of the bottom wall. 20. The water removal system of claim 19 , wherein in at a second vehicle inclination in a second slope direction opposite the first slope direction, the water level is maintained at the predetermined height proximate the apex of the bottom wall.