A dummy cell laminated on a fuel cell stack and configured not to perform power generation includes: a common appearance portion having an appearance common with an appearance of a power generation cell used in the fuel cell stack and configured to perform power generation; and a non-common appearance portion having an appearance different from the appearance of the power generation cell.

A fuel cell stack includes an endplate assembly having a structural endplate. An insulator plate has a second exterior surface contacting a first interior surface of the structural endplate and a second interior surface on an opposite side of the insulator plate. A third plate has a third exterior surface contacting the second interior surface and a third interior surface on an opposite side of the third plate relative to the insulator plate. The third interior surface and third exterior surface are substantially flat. The second interior surface and the third exterior surface contact each other substantially continuously in a longitudinal direction and a lateral direction, and are flat and substantially parallel to each other. The second exterior surface is contoured such that the second exterior surface is not flat and is substantially non-parallel relative to the third interior surface.

A separator plate for an electrochemical system has at least one passage opening for forming a media channel for feeding or discharging media. At least one bead arrangement arranged around the at least one passage opening, for the purpose of sealing the passage opening is provided. At least one of the flanks of the bead arrangement has at least one opening for conducting a medium through the bead flank. At least one guide channel is connected, on an exterior of the bead arrangement, to the openings in the bead flank and is fluidically connected to a bead interior via the opening in the bead flank. The guide channel is designed such that a guide channel height perpendicularly to the flat surface plane of the separator plate increases at least in some sections in the direction of said bead arrangement.

A separator plate for an electrochemical system has at least one passage opening for forming a media channel for feeding or discharging media. At least one bead arrangement arranged around the at least one passage opening, for the purpose of sealing the passage opening is provided. At least one of the flanks of the bead arrangement has at least one opening for conducting a medium through the bead flank. At least one guide channel is connected, on an exterior of the bead arrangement, to the openings in the bead flank and is fluidically connected to a bead interior via the opening in the bead flank. The guide channel is designed such that a guide channel height perpendicularly to the flat surface plane of the separator plate increases at least in some sections in the direction of said bead arrangement.

In a fuel cell system, when filling hydrogen into a hydrogen tank is determined to be started, a transmitter configured to transmit a signal indicating pressure in the hydrogen tank to a hydrogen filling device transmits a first signal indicating that the pressure in the hydrogen tank is a first sensor value when the first sensor value detected by a first pressure sensor configured to detect pressure in a filling flow path connecting a filler port and the hydrogen tank is equal to or higher than a reference pressure predetermined to exceed the atmospheric pressure. Moreover, when the first sensor value is lower than the reference pressure, the transmitter transmits a second signal indicating that the pressure in the hydrogen tank is a second sensor value detected by a second pressure sensor configured to detect pressure in a supply flow path connecting the fuel cell and the hydrogen tank.

In a fuel cell system, when filling hydrogen into a hydrogen tank is determined to be started, a transmitter configured to transmit a signal indicating pressure in the hydrogen tank to a hydrogen filling device transmits a first signal indicating that the pressure in the hydrogen tank is a first sensor value when the first sensor value detected by a first pressure sensor configured to detect pressure in a filling flow path connecting a filler port and the hydrogen tank is equal to or higher than a reference pressure predetermined to exceed the atmospheric pressure. Moreover, when the first sensor value is lower than the reference pressure, the transmitter transmits a second signal indicating that the pressure in the hydrogen tank is a second sensor value detected by a second pressure sensor configured to detect pressure in a supply flow path connecting the fuel cell and the hydrogen tank.

The invention relates to a fuel cell device with a pressing device (3) for pressing a fuel cell stack of the fuel cell device, as well as a pressing device (3) for pressing the fuel cell stack. In order to be able to press the fuel cell stack as needed, the invention provides that the pressing device (3) have a pretensioning unit (9a) with an adjusting element (12) and a supporting element (13), wherein contact surfaces (15, 16) of the adjusting element (12) and of the supporting element (13) extend obliquely to the pressing direction (P).

The invention relates to a fuel cell device with a pressing device (3) for pressing a fuel cell stack of the fuel cell device, as well as a pressing device (3) for pressing the fuel cell stack. In order to be able to press the fuel cell stack as needed, the invention provides that the pressing device (3) have a pretensioning unit (9a) with an adjusting element (12) and a supporting element (13), wherein contact surfaces (15, 16) of the adjusting element (12) and of the supporting element (13) extend obliquely to the pressing direction (P).

A fuel cell having an elastic member is provided. The fuel cell includes a cell stack in which a plurality of unit cells are stacked in a first direction and an end-plate disposed on each of opposite side ends of the cell stack. The elastic member is disposed in a portion of the end-plate to overlap a lower area of the cell stack in which condensate water remains in the first direction.

A fuel cell stack alignment system includes an alignment guide bar for positioning a plurality of stack components. Each of the stack components has an alignment slot and a spacing slot. A first alignment portion and a second alignment portion of the alignment guide bar has a shape that is complimentary to the shape of the alignment slot of each of the stack components. Abutting engagement between one of the first or second alignment portions and the alignment slot aligns each respective stack component in a respective assembly position. The other of the first and second alignment portions of each respective stack component is disposed within the spacing slot. The spacing slot has a shape that is larger than the first and second alignment portions, to provide a gap between the stack components and the alignment guide bar.