Fuel cell vehicle

What is claimed is: 1. A fuel cell vehicle comprising: a fuel cell stack formed by stacking a plurality of fuel cells configured to generate electrical energy by electrochemical reactions of a fuel gas and an oxygen-containing gas; a stack case containing the fuel cell stack, the stack case having at least one opening formed on an upper surface thereof; a vehicle body equipped with the stack case in the vehicle body; and a duct member disposed in the vehicle body, the duct member having a proximal end and a distal end, wherein: the proximal end of the duct member is connected to the at least one opening of the stack case; the distal end of the duct member is opened to a fender part of the vehicle body, and the at least one opening and the duct member are configured to discharge the fuel gas from the stack case to an area outside of the fuel cell vehicle. 2. The fuel cell vehicle according to claim 1 , wherein the stack case is mounted in a front box formed in front of a dashboard; and an exhaust port opened to an upper position of the fender part of a front wheel is provided at the distal end of the duct member. 3. The fuel cell vehicle according to claim 1 , wherein the duct member extends from the at least one opening of the stack case substantially in a vehicle width direction; and in a top plan view of the vehicle, the duct member is inclined to the outside in the vehicle width direction, and is also inclined rearwardly in a traveling direction of the vehicle. 4. The fuel cell vehicle according to claim 2 , wherein an upper end position of the exhaust port is below a lower end position of at least part of an inner wall surface of the duct member. 5. The fuel cell vehicle according to claim 2 , wherein an opening area of the exhaust port is increased toward a backside in a traveling direction of the vehicle. 6. The fuel cell vehicle according to claim 1 , wherein a right duct member and a left duct member of duct members are coupled by a bypass duct. 7. The fuel cell vehicle according to claim 1 , wherein said at least one opening comprises four openings, and four duct members are connected to the four openings at four corners of the stack case. 8. The fuel cell vehicle according to claim 1 , wherein two duct members of the duct members on one side of the stack case in a vehicle width direction are merged and opened to an exhaust port provided on an upper position of the fender part. 9. The fuel cell vehicle according to claim 2 , wherein a mesh member is provided on the exhaust port. 10. A fuel cell vehicle comprising: a fuel cell stack formed by stacking a plurality of fuel cells configured to generate electrical energy by electrochemical reactions of a fuel gas and an oxygen-containing gas; a stack case containing the fuel cell stack, the stack case having a rectangular upper surface with a respective opening formed therein proximate each of four corner portions thereof; a vehicle body equipped with the stack case in the vehicle body; and a pair of duct members disposed in the vehicle body, each of the duct members being formed in a modified Y-shape, having a distal end and a bifurcated proximal end, wherein: the bifurcated proximal end of each of the duct members is connected to two of the openings of the stack case; the distal end of the each of the duct members is opened to a fender part of the vehicle body; and the duct members are configured to discharge the fuel gas from the stack case to an area outside of the fuel cell vehicle. 11. The fuel cell vehicle according to claim 10 , wherein the stack case is mounted in a front box formed in front of a dashboard; and an exhaust port opened to an upper position of the fender part of a front wheel is provided at the distal end of the duct member. 12. The fuel cell vehicle according to claim 10 , wherein each of the duct members extends from the stack case substantially in a vehicle width direction; and in a top plan view of the vehicle, each duct member is inclined to the outside in the vehicle width direction, and is also inclined rearwardly in a traveling direction of the vehicle. 13. The fuel cell vehicle according to claim 11 , wherein an upper end position of each exhaust port is below a lower end position of at least part of an inner wall surface of the corresponding duct member. 14. The fuel cell vehicle according to claim 11 , wherein an opening area of the exhaust port is increased toward a backside in a traveling direction of the vehicle. 15. The fuel cell vehicle according to claim 10 , wherein a right duct member and a left duct member of the duct members are coupled by a bypass duct. 16. The fuel cell vehicle according to claim 10 , wherein two portions of the duct members on each side of the stack case in a vehicle width direction are merged and opened to an exhaust port provided on an upper position of the fender part. 17. The fuel cell vehicle according to claim 11 , wherein a mesh member is provided on the exhaust port.