Patent application number | Description | Published |
20110121004 | Pressure-Resistant Tank for Cryogenically Stored Fuel - A heat-insulated tank is provided for use as a reservoir for an operating agent of a drive assembly of a motor vehicle, particularly a heat-insulated cryotank for condensed gases. The tank consists at least of an interior tank for receiving a condensed gas, which interior tank is held in a heat-insulated manner in at least one exterior tank, which can be closed by a lid. At least one valve, a sensor, and/or a conduit connecting piece with pertaining conduits are accommodated in the insulation space, in the area of the lid between the interior tank and the exterior tank, fixedly connected with the lid. | 05-26-2011 |
20120169299 | Method of Using a Container for a Refrigerated Fluid, and a Corresponding Container - A container for a refrigerated fluid having an external container and an internal container between which an evacuated intermediate space is situated, which contains a superinsulator formed by several, separated layers of foil provided with a metal layer, is used as a storing device for electric energy. The foils act as foil capacitors and are electrically contacted so that an electric voltage can be applied to corresponding electric terminals on the exterior side of the container. In the container, a metal layer can be provided on both surfaces of the foil(s), and the foil(s) may consist of a material with a semiconductor characteristic. The foil capacitors are electrically connectable in series or parallel, and the electrical contacting of the foil metal surfaces can take place via a suspension structure of the internal container in the external container. | 07-05-2012 |
20140203636 | Operating Method for an Electric Energy System of a Motor Vehicle Comprising a Fuel Cell System, an Accumulator and an Electric Motor - A method of operating an electric system of a motor vehicle, consisting of a fuel cell system, an accumulator and an electric driving motor is provided. Without implementing an electric voltage conversion and therefore without an electric voltage converter, as a function of the level of the electric voltage made available by the fuel cell system and by the accumulator and the electric power demanded by the electric motor, a first switching element in the connection between the fuel cell system and a node point electrically connected with the accumulator and the electric motor, as well as a second switching element in the connection between the accumulator and this node point are opened or closed as needed. This is done such that the power requirement of the electric motor is met primarily from the fuel cell system, and in an auxiliary fashion, additionally from the accumulator. If the electric power offered by the fuel cell system exceeds the electric power demanded by the electric motor, the excess power will be fed to the accumulator for as long as its permissible charging current is not exceeded and the accumulator still has a defined residual storage capacity. | 07-24-2014 |
20150111123 | Exhaust Air Guide of a Fuel Cell Stack in a Motor Vehicle - An exhaust-air guide of a fuel cell stack having a cooling structure, in particular in a motor vehicle, is provided. The cooler structure belongs to the functional environment of the fuel cell stack and is in form through which ambient air flows. The exhaust air of the fuel cell stack is guided to a point upstream of the cooler structure such that the exhaust air flows through the cooler structure in a throughflow direction and, in so doing, entrains ambient air in accordance with the jet pump principle. The exhaust air of the fuel cell stack may be cooled before being guided to the cooler structure. The exhaust air of the fuel cell stack is guided to a point upstream of the cooler structure in multiple pipes that are oriented at least approximately parallel to the inflow surface of the cooler structure, from which pipes the exhaust air emerges via outlet openings in the pipe wall. The outlet openings are situated at a suitable angle with respect to the throughflow direction. | 04-23-2015 |
20150255804 | Fuel Cell Having a Flow Distributor - A fuel cell having an anode-cathode stack includes at least one active surface layer formed by a first channel structure with a first and at least one second channel for conducting a first fluid over the at least one active surface layer of the anode-cathode stack. A first distributor structure for distributing the first fluid into the first and the at least one second channel of the channel structure is provided. The first distributor structure is configured with a first surface region assigned to the first channel and with a second surface region assigned to the second channel. The two surface regions are configured with a flow resistance of differing magnitude for the first fluid distributed in the first distributor structure. | 09-10-2015 |
20150263363 | Fuel Cell Arrangement and Method for Operating the Fuel Cell Arrangement - A fuel cell arrangement, in particular for a motor vehicle, includes a tank for storing a carrier fluid mixed with hydrogen, a separating device for separating hydrogen from the carrier fluid, a fuel cell for generating electrical energy from the hydrogen, and a heating arrangement for heating the carrier fluid mixed with hydrogen. The heating arrangement includes a first heat exchanger for heating the carrier fluid by way of a carrier fluid return line, and/or a second heat exchanger for heating the carrier fluid by way of the waste heat of the fuel cell, and/or a third heat exchanger for heating the carrier fluid by way of a compressed intake air. | 09-17-2015 |
20150325876 | Fuel Cell Having At Least One Active Surface Layer - The invention relates to a fuel cell having an anode/cathode stack, which comprises at least one active surface layer, which is designed having a first channel structure having a plurality of first channels for conducting a first fluid in a first direction over the surface layer, which is designed having a second channel structure having a plurality of second channels for conducting a second fluid in a second direction over the surface layer, wherein the second direction extends substantially perpendicularly to the first direction, which is designed having a first feeding structure for feeding the first fluid into the plurality of first channels, and which is designed having a second feeding structure for feeding the second fluid into the plurality of second channels. According to the invention, the first feeding structure and the second feeding structure are both arranged on a first edge of the surface layer and the first feeding structure additionally comprises an edge channel for feeding the first fluid to a second edge of the surface layer that is directed perpendicular to the first edge. | 11-12-2015 |
20150328984 | Motor Vehicle Having a Fuel Cell - In a motor vehicle having a fuel cell, an air compressor provides input air under pressure at the fuel cell and an electric drive motor for driving the motor vehicle, which drive motor can be supplied with electric current by the fuel cell for that purpose, wherein the air compressor is driven by the drive motor. | 11-19-2015 |