DE10147367A1 - Fuel cell operating device has branch lines connected to individual fluid lines with their individual ends fed in common into fluid coupling part and held therein - Google Patents

Abstract

The fuel cell operating device has a number of process devices, such as a fuel dosing device, a gas mixture evaporator, a gas reformer, a gas cleaner, a fuel cell and a catalytic after burner connected together via fluid lines (7). Branch lines (8,8.1) connected to individual fluid lines have their individual ends fed in common into a fluid coupling part (9) and held therein.

Description

The invention relates to a Fuel cell operating device according to the preamble of first claim.

It is known in fuel cell operating facilities (DE 197 31 642 C1), Process equipment, such. Legs Fuel metering device, a mixture evaporator, a Gas reformer, a gas purifier, a fuel cell and a catalytic afterburner, so over fluid lines to connect with each other, that one at least largely emission-free operation of the fuel cell is achieved. The necessary process parameters can be used during production already set. However, experience has shown that a certain period of operation a review and if necessary a readjustment of these process parameters necessary.

The invention is based on the object, in accordance with the Generic term of the first claim trained Fuel cell plant to take action through which in a simple way a determination of the current Process characteristics is possible.

The solution of this object is achieved according to the invention by the characterizing features of the first claim. advantageous Further developments of the subject invention will become apparent additional claims.

In a structure of a fuel cell operating device In any case, according to the invention to fluid lines, on Which process characteristics can be determined, branch lines connected in normal operation at their free Ends are closed. It does not affect this of the operating process as it proceeds in normal operation. For the customer service case or for verification purposes are in Advantageously, the free ends of the branch lines additionally spatially summarized and in one Fluid coupling part united. As a result, no need in this case Single lines to possibly difficult to access and possibly hot branch fittings on the respective fluid lines be misplaced, so that misconnections are avoided. There this fluid coupling part arranged at a readily accessible location can be there in a simple and clear way individual measuring leads of measuring or analysis devices be connected. Otherwise, each end of a Fluid line to be sealed.

In a particularly advantageous manner, the open ends of the Branch lines either with a matched Counter coupling part closed together for normal operation or they are bypassed or they are being serviced via test leads, all at an additional Gegenkuppelteil are arranged on measuring or analysis equipment connected to a measuring station.

If necessary, fluid lines can be arranged in the manner of Branch lines but also as a loop to Fluidkuppelteil be guided and interrupted there, if the whole or a Part of the fluid flow of this fluid line for the Diagnostic tasks or for review are available got to. Then, however, the corresponding aperture pairs of concerned fluid lines in normal operation by means of connected to a single overflow channel. Such a Overflow is then in a Gegenkuppelteil formed, which are the free ends of all the rest Closes branch lines.

The invention is described below with reference to sketches as Embodiment shown Fuel cell operating device explained in more detail.

Show it

Fig. 1 is a fuel-cell operating means with a diagnostic device and

Fig. 2 is a Gegenkuppelteil for the diagnostic device.

In a fuel cell operating device, for example, in a series connection, a fuel metering device 1 for the mixing of liquid methanol with water, a mixture evaporator 2 for producing a gaseous methanol-water mixture, a gas reformer 3 for providing reformate gas with a high proportion of hydrogen H2, a gas purifier 4 for removing interfering gas components, such. B. carbon monoxide CO from the reformate gas, a fuel cell 5 for generating electric power for the drive z. As a vehicle and a catalytic afterburner 6 for the conversion of pollutants contained in the anode exhaust gas of the fuel cell 5 in harmless components. The connection of the aforementioned process devices with each other and with other system parts, not shown, serve fluid lines. 7 In the individual fluid lines 7 branches are installed, of which branch lines 8 lead to a common fluid coupling part 9 and are mechanically firmly connected to each other.

The end openings of the branch lines 8 open freely in the fluid coupling part 9 .

If a partial flow is branched off from a fluid flow for diagnostic purposes and returned to this fluid flow, as shown on the fluid line 7 between the gas reformer 3 and the gas purifier 4 , then two branch lines 8.1 lead to the fluid coupling part 9 from the relevant fluid line 7 . In this case, if necessary, the entire fluid flow can be conducted at this point via the branch lines 8.1 , in which case the fluid line 7 is guided in the manner of a loop. In this fluid line 7 , an optionally controllable valve can be switched on in parallel to the two branch lines 8.1 , with which the proportion of fluid flow to be led via the branch lines 8.1 can be changed. An arrangement of this kind can be realized on any other branch line 7 if necessary.

In the fluid coupling part 9 , all end openings of the branch lines 8 and 8.1 are available together at a central location for diagnosis, measuring or monitoring purposes. Instead of individual coupling devices and associated piping or hoses can be provided according to FIG. 1 for connection to one or more measuring, analysis or monitoring / en / 10 a Gegenkuppelteil 11 suitable for fluid coupling part 9 in an advantageous manner. The Gegenkuppelteil 11 is designed for this purpose as Anschlußkuppelteil and includes one of the number of branch lines 8 and 8.1 corresponding number of pipes 12 or hoses, which in turn are connected to individual or unitized in a unit 10 measuring, analysis and / or monitoring devices fluidly , By coupling the fluid coupling part 9 with the counter-coupling part 11 , the unit 10 is connected to the branch lines 7 8, 8.1.

Confusion when connecting the devices are thereby excluded and it can be easily obtained process data from the individual fluid streams in the fuel cell operating device, evaluated and used to optimize the operating process. Measurement data can be the lambda value before the fuel metering device 1 , the fuel mixture ratio M before the fuel evaporator 2 , the mixture temperature T after the fuel evaporator 2 , the temperature of the vaporized methanol-water mixture TMeOH after the gas reformer 3 , the carbon monoxide CO after the Gas purifier 4 , a volume flow V, the hydrogen content H2 after the fuel cell 5 , the oxygen content O2 after the catalytic afterburner 6 or other process parameters.

If no process data is required, the counter-dome part 11 serving as the connection dome part can be removed from the fluid dome part 9 and a final dome part can be attached to the fluid dome part 9 as a counter dome part 11 according to FIG . This Abschlusskuppelteil has closure pieces 14 , which close the associated end openings of the branch lines 8 , while for the branch lines 8.1 an overflow 15 is provided, which fluidly bridges the fluid lines 8.1 and so accomplished the direct return flow of the branched fluid flow. Under normal operating conditions of the fuel cell operating device, therefore, only the fluid coupling part 9 with the counter-coupling part 11 designed as a final coupling part needs to be closed, which is done in a simple manner with one movement.

Claims (5)

A fuel cell operating device having a plurality of process devices, such as a fuel metering device, a mixture evaporator, a gas reformer, a gas purifier, a fuel cell and a catalytic afterburner, which are interconnected via fluid lines, characterized in that to individual fluid lines ( 7 ) branch lines ( 8 or 8.1 ) are connected, whose ends are guided together in a fluid coupling part ( 9 ) and held therein. 2. Fuel cell operating device according to claim 1, characterized in that on the Fluidkuppelteil ( 9 ) selectively either a trained as a final coupling part Gegenkuppelteil ( 11 ) or designed as a connecting dome part Gegenkuppelteil ( 11 ) is connectable. 3. fuel cell operating device according to claim 1 or 2, characterized in that lead away from the formed as a connection dome part Gegenkuppelteil ( 11 ) pipes ( 12 ) which are in fluid communication with fluid lines ( 8 and / or 8.1 ) and to measuring and / or analysis devices ( 10 ) are guided. 4. fuel cell operating device according to at least one of claims 1 to 3, characterized
that fluid lines ( 7 ) via branch lines ( 8.1 ) guided in the manner of a loop in the fluid coupling part ( 9 ) and in the fluid coupling part ( 9 ) are interrupted and
in that the counter coupling part ( 11 ) designed as a closing coupling part contains an overflow channel ( 15 ) connecting the ends of these branch lines ( 8.1 ). 5. Fuel cell operating device according to at least one of claims 1 to 4, characterized in that in the formed as a final coupling part Gegenkuppelteil ( 11 ) the free ends of branch lines ( 8 ) are assigned closure pieces ( 14 ).