In a newly developed hydrogen train for local transport, a pressure switch from WIKA plays an essential role. Within the scope of pressure monitoring, it performs the central safety function in the H2 supply system through the journey.
The advantages of hydrogen in rail transport are rather unknown to everyone. Even if the first trains with H2 fuel cells are already in operation. They are powered by non-electrified railway lines and replace the diesel trains which were used before.
Tanks based on carbon fibre composite technology
The tank capacity for the hydrogen must be adapted to the distances. Among WIKA?s customers has specialised in individual fuel storage systems for H2 vehicles. Their cylindrical tanks derive from carbon fibre composite technology. They’re therefore extremely robust and yet have a comparatively low weight compared to steel vessels.
Tanks of this type are also installed in the hydrogen-powered train mentioned at the beginning. This multiple-unit train, created for commuting traffic, is filled with the hydrogen at a particular terminal. The tank pressure is 300 to 350 bar. While driving, it should be reduced to a single-digit value for the supply to the fuel cell. This is done via a pressure regulation unit downstream of the storage system.
Pressure switch in hydrogen-powered train switches the drive system off
Suitable for use in a new kind of hydrogen-powered train regarding safety ? Giveaway from WIKA.
The pressure switch model PXA meets certain requirements of the hydrogen-powered train application. With the monitoring the of tank pressure and pressure regulation in the hydrogen-powered train, the client uses the pressure switch model PXA for the safety function. The miniature instrument switches off the H2 propulsion system in two cases, based on the function:
if the tank is in danger of emptying
if the pressure becomes too high when the hydrogen is used in the propulsion system
This emergency protection may be realised with a pressure sensor and a software. But for trains this solution would be very complicated. It is also rated with an increased risk of error when compared to a switch-based safety function.
SIL-3 approval made the case for its use
The customer did not decide on the model PXA due to its measurement quality alone. The pressure switch was also considered right for the task in the hydrogen-powered train because of its SIL-3 suitability. It thus easily meets the safety-related market requirements for the H2 application (SIL-2).
Flameproof enclosure (?Ex d?) and Unhurried has also been designed for ambient temperatures from -40 �C to +85 �C. Furthermore, the pressure switch has IECEx approval ?Ex d? (flameproof enclosure), which the customer requires as standard. An additional benefit of this instrument: The PXA could be easily built-into the storage system thanks to its extremely compact design.
Note
Further information about hydrogen and on the pressure switch model PXA can be found on the WIKA website. For those who have any questions, your contact will gladly gelp you.
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