A low floor road vehicle, in the form for example of a passenger bus, includes a front module that includes the front load-carrying axle at its front, a rear module including the rear load-carrying axle, a central module having a flat floor and lateral side walls that longitudinally extend beyond both longitudinal ends of the flat floor so as to define front and back module attaching portions, and a roof mounted to both lateral side walls so as to extend beyond the floor both towards the front and back, which brings rigidity to the overall structure. The vehicle being modular, the central module can be configured to a specific application, for example by varying the length thereof, while same configurations of the front and rear modules can be used in all applications. Also, the front axle being located at the front of the front module, the access to the passenger area defined by the flat floor is improved.

A hybrid vehicle having an electric drive with a power accumulator, a fuel cell, and a control unit configured to control the operation of the fuel cell. The control unit has logic, at least partially including hardware configured to activate and deactivate the fuel cell as a function of a first characteristic map having a first input variable representing a present power demand of the hybrid vehicle which exists over a first defined observation time range.

A system for a vehicle, having a fuel cell system and a compressed air system for supplying compressed air to a pneumatic device. The fuel cell system includes at least one fuel cell having a cathode side, an air inlet conduit connected to an inlet end of the cathode side, an air compressor disposed in the air inlet conduit, an air filter arranged to receive air from an ambient environment. The air filter is arranged at an inlet of the air inlet conduit. A a fluid outlet conduit is connected between an outlet end of the cathode side and an inlet side of an expander, and an exhaust conduit is connected to an exhaust side of the expander. The compressed air system comprising: an electrically operable air compressor connectable to the pneumatic device. A controllable valve assembly fluidly connects an air inlet of the compressor to multiple fluid supply positions. The controllable valve assembly selectively directs air from the outlet conduit position, the air inlet conduit position and at least from one of the air inlet conduit position and the position to the compressed air system in response to an operating condition of the vehicle.

A water spray cooling system includes a first storage container storing exhaust water generated from a fuel cell system comprised in the fuel cell electric vehicle, a second storage container connected to the first storage container via a first valve; a first tube connecting a first opening of the second storage container with an air tank via a second valve. The air tank comprises compressed air generated from a compressed air system comprised in the fuel cell electric vehicle. The cooling system also includes one or more water spray nozzles connected to a second opening of the second storage container through a second tube.

A vehicle may include: a fuel tank; a first fuel inlet connected to the fuel tank and configured to connect to a fuel supply nozzle; and a second fuel inlet connected to the fuel tank and configured to connect to the fuel supply nozzle. An inner diameter of the second fuel inlet may be smaller than an inner diameter of the first fuel inlet.

A vehicle (52) is provided having at least one battery (35) for supplying at least one drive of the vehicle (52) with electricity, and having at least one gas storage device (33). At least one part of the gas storage device (33) and at least one part of the battery (35) are combined in a structural unit (32) and arranged on an underbody (31) of the vehicle (52). A method for charging a battery (35) in a vehicle (52) is also provided, in which method at least one part of a battery (35) combined in a structural unit (32) with at least one part of a gas storage device (33) is supplied with electricity by a fuel cell comprised by the vehicle (52).

A vehicle includes: a front room disposed at a front portion of the vehicle in the vehicle in a vehicle-longitudinal direction; a fuel cell stack disposed in the front room, the fuel cell stack including multiple cells stacked in the vehicle-longitudinal direction; and a buffer member disposed in front of the fuel cell stack in the vehicle-longitudinal direction.

A vehicle includes: a front room disposed at a front part of the vehicle in a longitudinal direction of the vehicle; a fuel cell stack disposed in the front room, the fuel cell stack including multiple cells stacked in the longitudinal direction; a bumper reinforcement disposed at a front part of the front room in the longitudinal direction; and a buffer member disposed between the fuel cell stack and the bumper reinforcement in the longitudinal direction. At least a part of the buffer member overlaps with the bumper reinforcement, as viewed from a direction along the longitudinal direction.

A vehicle includes an electric power storage, an electric power generator, a rotating electric machine, and circuitry. The rotating electric machine is driven with electric power stored in the electric power storage and/or generated by the electric power generator to move the vehicle. The circuitry is configured to calculate target driving force for rotating electric machine, to detect surplus electric power which is generated due to a response delay of the electric power generator upon decreasing an amount of electric power generated by the electric power generator when the target driving force decreases, and to drive the rotating electric machine, when detecting the surplus electric power, with a phase current different from a maximum efficiency phase current with which an electric current value or electric power loss of the rotating electric machine is smallest so that the rotating electric machine consumes the surplus electric power.

An electric vehicle includes a driving device including an electric motor and a mechanism transmitting a driving force from the electric motor to a rear wheel axle, which are accommodated in a case, a first oil cooler configured to cool oil in the case, the first oil cooler being disposed behind the rear wheel axle, and a second oil cooler configured to cool the oil in the case, the second oil cooler being disposed behind the rear wheel axle. The driving device is disposed in a rear portion of the vehicle such that the driving device crosses the rear wheel axle. The second oil cooler is disposed at a position misaligned in a vehicle front-rear direction with respect to the first oil cooler.