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First hydrogen station with two types of refuelling technology. Latest move by the BMW Group and TOTAL will take forward the development of hydrogen fuel cell vehicles.

Munich. It is now possible to drive by fuel cell-powered car all the way from southern Germany to Lake Garda in Italy. The opening of the hydrogen station in Munich’s Detmoldstrasse completes the European HyFIVE project’s South Cluster, which comprises Stuttgart, Munich, Innsbruck and Bolsano.

Technology
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Technology, Research & Development
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Efficient Dynamics
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Alternative Drive Systems, Mobility of the Future
 

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Munich. It is now possible to drive by fuel cell-powered car all the way from southern Germany to Lake Garda in Italy. The opening of the hydrogen station in Munich’s Detmoldstrasse completes the European HyFIVE project’s South Cluster, which comprises Stuttgart, Munich, Innsbruck and Bolsano.  “This new form of mobility, based on hydrogen, offers private and commercial users zero-local-emission long-distance electric mobility with no concessions on comfort, space and refuelling times,” is how Matthias Klietz, head of Research Powertrain at the BMW Group, sums up the advantages of hydrogen.

 

The TOTAL multi-energy filling station on Detmoldstrasse marks an important milestone. It is the world’s first public filling station where the two pumps dispense hydrogen using two different types of refuelling technology, namely:

  • Industry-standard 700 bar CGH2 hydrogen storage technology. This refuelling technology for hydrogen fuel cell vehicles is already up and running.
  • Cryo-compressed hydrogen storage technology (CCH2). This technology, developed by the BMW Group, involves storing gaseous hydrogen at low temperature on board the vehicle at a pressure of up to 350 bar. It is currently at the advanced development stage and will only come on stream for general use over the longer time frame. CCH2 tanks offer up to 50% more hydrogen storage capacity than 700 bar tanks and can support a driving range of over 500 kilometres.

 

In order to research and develop both types of tank system and their integration in the vehicle, it is important for the BMW Group to have both systems available for testing in the real world and not just in the laboratory. Much more realistic test scenarios can be achieved if lab tests are supplemented by testing at a public filling station.

 

 Hydrogen fuel cell electric vehicles offer:

  • Fast and convenient refuelling in less than five minutes – which is about the same time it takes to refuel a conventional petrol or diesel vehicle.
  • Long driving ranges in excess of 500 kilometres due to the high energy density of the hydrogen.
  • All-electric, zero-local-emission driving.

 

Since fuel cell electric vehicles are particularly suited to longer-distance trips, they are the ideal complement to the BMW i models, and to the future plug-in hybrid production models from the BMW brand, which will be based on the already proven eDrive technology. The fuel cell converts the gaseous hydrogen in the vehicle’s fuel tank into electricity and water. Since the high-voltage battery only serves as a power buffer, a much smaller and lighter battery can be used than on a battery-electric vehicle.

 

In the long run, hydrogen fuel cell drive will become an integral part of BMW’s Efficient Dynamics programme, adding to the diversity of the BMW Group’s powertrain portfolio. This portfolio can be flexibly tailored to different vehicle concepts, customer requirements and legal and regulatory requirements in the international automobile markets.

 

However, a basic requirement for the successful introduction of hydrogen fuel cell vehicles is the development of a hydrogen refuelling infrastructure in the relevant automobile markets.  In important initial markets for hydrogen, such as Japan, California/USA and Europe (particularly Germany, the United Kingdom and Scandinavia), it is realistic to assume that the current infrastructure initiatives will lead to the establishment of an initial hydrogen refuelling infrastructure by around 2020. Unlike Japan, which as an island has little or no need to make allowances for cross-border traffic, Europe faces much more challenging requirements in terms of ensuring a transnational infrastructure.

 

The BMW Group is therefore actively contributing its expertise as a partner in important initiatives for the development and planning of a hydrogen infrastructure, such as the H2 Mobility and CEP initiatives in Germany, and also as an active member in the EU’s Fuel Cell Hydrogen Joint Undertaking. On the technology side, too, cooperation with strong partners makes good sense in order to speed development. The BMW Group is therefore collaborating intensively with TOTAL Germany and the Linde Group on refuelling processes and technology.

 

Over the long term, moves are afoot to use power-to-gas electrolysis to store surplus renewable electricity in the form of hydrogen. Production of hydrogen from surplus electricity would offer a realistic long-term prospect of ensuring a cost-efficient supply of green hydrogen for use in fuel cell electric vehicles.

 

 

 

Further information on official fuel consumption figures, specific CO2 emission values and the electric power consumption of new passenger cars is included in the following guideline: “Leitfaden über Kraftstoffverbrauch, die CO2-Emissionen und den Stromverbrauch neuer Personenkraftwagen” (Guideline for fuel consumption, CO2 emissions and electric power consumption of new passenger cars), which can be obtained from all dealerships, from the Deutsche Automobil Treuhand GmbH (DAT), Hellmuth-Hirth-Str. 1, 73760 Ostfildern-Scharnhausen and at http://www.dat.de/en/offers/publications/guideline-for-fuel-consumption.html. LeitfadenCO2 (GuidelineCO2) (PDF ‒ 2.7 MB)

 

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CO2 emission information.

Fuel consumption, CO2 emission figures and power consumption and range were measured using the methods required according to Regulation VO (EC) 2007/715 as amended. They refer to vehicles on the German automotive market. For ranges, the NEDC figures take into account differences in the selected wheel and tyre size, while the WLTP figures take into account the effects of any optional equipment.

All figures have already been calculated based on the new WLTP test cycle. NEDC figures listed have been adjusted to the NEDC measurement method where applicable. WLTP values are used as a basis for the assessment of taxes and other vehicle-related duties which are (also) based on CO2 emissions and, where applicable, for the purposes of vehicle-specific subsidies. Further information on the WLTP and NEDC measurement procedures is also available at www.bmw.de/wltp.

For further details of the official fuel consumption figures and official specific CO2 emissions of new cars, please refer to the “Manual on the fuel consumption, CO2 emissions and power consumption of new cars”, available at sales outlets free of charge, from Deutsche Automobil Treuhand GmbH (DAT), Hellmuth-Hirth-Str. 1, 73760 Ostfildern-Scharnhausen and at https://www.dat.de/co2/.

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