hydrogen for railway traction - hydrail 2018hydrogen reduces the dependency on petroleum products...
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HYDROGEN FOR RAILWAY TRACTION
Andreas HoffrichterResearch Associate
Birmingham Centre for Railway Research and Education
University of Birmingham, UK
Toronto: Ryerson University. 11th of June 2013
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Outline
Current railway traction Well-to-wheel analysis results Prototype locomotive Hydrogen Pioneer Performance modelling with computer simulation
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Present Railway Traction The majority of railway traction vehicles employ electric motors Energy to the traction motors is supplied either through wayside
infrastructure (electric) or an on-board diesel-alternator set (diesel) At a global level, approximately 70% of railway energy for traction is
supplied as diesel while 30% is provided by electricity. BUT varies significantly with region, e.g., 100% of railway network electrified in Switzerland, whereas 0% electrified in Canada (mainlines only)
Railways are typically the largest single energy consumer in a country, e.g., for electricity in Germany and the UK, for diesel BNSF in the USA
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Problems Facing Diesel Traction Point-of-use emissions and overall Greenhouse Gas emissions Uncertainty about economical diesel supply
Traditional solution: Electrification. BUT:• Large investment in infrastructure required• Visual impact of wayside infrastructure
Alternative to Diesel traction required, other than electrification
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Reasons for Hydrogen Abundant Non-toxic Not a greenhouse gas Various feedstocks Combustion product with oxygen is water Can reduce greenhouse gas emissions Does not require wayside infrastructure
For railways: Combines the advantages of diesel and electric traction and avoids most disadvantages: autonomous operation without emissions at the point-of-use while allowing a feedstock mix
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Hoffrichter, A., Miller, A., R., Hillmansen, S., & Roberts, C. (2012). Well-to-Wheel Analysis for Electric, Diesel and Hydrogen Traction for Railways. Transportation Research Part D: Transport and Environment, 17(1), 28-34. doi: 10.1016/j.trd.2011.09.002
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Hydrogen Pioneer UK’s first hydrogen-powered train (locomotive) Developed, designed, constructed at the University of Birmingham, in
the time frame four to five month Demonstrated at several occasions Narrow gauge hybrid locomotive 1.1 kW PEM fuel cell 4 Lead-acid batteries 4.4 kW continuous traction motor power Hydrogen storage either:
• Metal hydride (approximately 500g of hydrogen)• 200 bar compressed gas (approximately 150g of hydrogen)
Video
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Locomotive used for performance evaluation, with various duty cyclesSome results:• Measured fuel cell stack peak efficiency matches manufactures
specifications at around 40% - 43%• Fast response of the fuel cell stack to a change in load• Hybrid system performed as designed• Overall system design suitable for standard gauge traction vehicle
Hydrogen Pioneer (2)
Compressed Gas Tank (Red) Fuel Cell Stack Metal hydride tank (silver)
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Hydrogen Pioneer (3)
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Benchmark Performance Modelling Typical regional rail route in the UK Birmingham Moor Street to
Stratford-upon-Avon and return (some commuter traffic) Currently operated with Diesel Multiple Units New diesel-electric vehicle chosen as a benchmark: Stadler GTW 2/6 Hydrogen-only and hydrogen-hybrid vehicle designed and modelled to
operate same schedule as the diesel benchmark Volume and mass implications of novel drive-train considered
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Diesel-Electric Drive System
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Hydrogen-only Drive System
Hydrogen Fuel Tank
Fuel Cell Stack M
DC ‐ DC DC ‐ AC
Power‐Plant Traction Package
Drive‐Train
DC‐BUS
Auxiliaries
DC ‐ ACBrake
Resistors
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Hydrogen-Hybrid Drive System
DC ‐ AC
M
Traction Package
Drive‐Train
DC‐BUS
DC ‐ DC
Energy Storage
Hydrogen Fuel Tank
Fuel Cell Stack
Power‐Plant
DC ‐ DC
Auxiliaries
DC ‐ ACBrake
Resistors
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Some Modelling Results Hydrogen drive system can be installed in the vehicle with minimal
impact on passenger space and vehicle mass All three trains have a journey time of 94 min and a operating range of
16 hours. Refuelling on a daily basis as standard practice on many routes in the UK
Energy requirement reductions for the journey compared to diesel: 34% hydrogen-only, 55% hydrogen-hybrid (LHV)
Well-to-wheel carbon reductions compared to diesel: 55% hydrogen-only, 72% hydrogen-hybrid, assuming that all the hydrogen is produced from natural gas (LHV)
Courtesy and Copyright City of Austin
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Conclusion Hydrogen reduces the dependency on petroleum products Emission reduction possible Well-to-wheel efficiency similar to incumbent railway energy systems Prototype locomotive Hydrogen Pioneer demonstrated:
• Construction with standard components possible• Hydrogen gas utilised in a fuel cell is suitable for railway traction• High power-plant efficiency• Quick response time of fuel cell stack
Computer simulation showed similar performance to diesel traction, while reducing energy requirements and carbon emissions
HYDROGEN IS SUITABLE FOR RAILWAY TRACTION
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Acknowledgements for PhD support
Engineering and Physical Science Research Council (EPSRC) for financial support
Vehicle Projects for providing information, data, and support throughout the PhD period
Rex Harris for the loan of a metal hydride tank Railway Challenge team for collaborative work leading to the
Hydrogen Pioneer