Summary
The overall aim of NewBusFuel is to resolve a significant knowledge gap around the technologies and engineering solutions required for the refuelling of a large number of buses at a single bus depot. Bus depot scale refuelling imposes significant new challenges which have not yet been tackled by the hydrogen refuelling sector:
• Scale – throughputs in excess of 2,000kg/day (compared to 100kg/day for current passenger car stations)
• Ultra-high reliability – to ensure close to 100% available supply for the public transport networks which will rely on hydrogen
• Short refuelling window – buses need to be refuelled in a short overnight window, leading to rapid H2 throughput
• Footprint – needs to be reduced to fit within busy urban bus depots
• Volume of hydrogen storage – which can exceed 10 tonnes per depot and leads to new regulatory and safety constraints
A large and pan-European consortium will develop solutions to these challenges. The consortium involves 10 of Europe’s leading hydrogen station providers. These partners will work with 12 bus operators in Europe, each of whom have demonstrated political support for the deployment of hydrogen bus fleets.
In each location engineering studies will be produced, by collaborative design teams involving bus operators and industrial HRS experts, each defining the optimal design, hydrogen supply route, commercial arrangements and the practicalities for a hydrogen station capable of providing fuel to a fleet of fuel cell buses (75-260 buses).
Public reports will be prepared based on an analysis across the studies, with an aim to provide design guidelines to bus operators considering deploying hydrogen buses, as well as to demonstrate the range of depot fuelling solutions which exist (and their economics) to a wider audience.
These results will be disseminated widely to provide confidence to the whole bus sector that this potential barrier to commercialisation of hydrogen bus technology has been overcome.
• Scale – throughputs in excess of 2,000kg/day (compared to 100kg/day for current passenger car stations)
• Ultra-high reliability – to ensure close to 100% available supply for the public transport networks which will rely on hydrogen
• Short refuelling window – buses need to be refuelled in a short overnight window, leading to rapid H2 throughput
• Footprint – needs to be reduced to fit within busy urban bus depots
• Volume of hydrogen storage – which can exceed 10 tonnes per depot and leads to new regulatory and safety constraints
A large and pan-European consortium will develop solutions to these challenges. The consortium involves 10 of Europe’s leading hydrogen station providers. These partners will work with 12 bus operators in Europe, each of whom have demonstrated political support for the deployment of hydrogen bus fleets.
In each location engineering studies will be produced, by collaborative design teams involving bus operators and industrial HRS experts, each defining the optimal design, hydrogen supply route, commercial arrangements and the practicalities for a hydrogen station capable of providing fuel to a fleet of fuel cell buses (75-260 buses).
Public reports will be prepared based on an analysis across the studies, with an aim to provide design guidelines to bus operators considering deploying hydrogen buses, as well as to demonstrate the range of depot fuelling solutions which exist (and their economics) to a wider audience.
These results will be disseminated widely to provide confidence to the whole bus sector that this potential barrier to commercialisation of hydrogen bus technology has been overcome.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/671426 |
| Start date: | 01-06-2015 |
| End date: | 31-03-2017 |
| Total budget - Public funding: | 2 471 144,75 Euro - 2 438 919,00 Euro |
Cordis data
Original description
The overall aim of NewBusFuel is to resolve a significant knowledge gap around the technologies and engineering solutions required for the refuelling of a large number of buses at a single bus depot. Bus depot scale refuelling imposes significant new challenges which have not yet been tackled by the hydrogen refuelling sector:• Scale – throughputs in excess of 2,000kg/day (compared to 100kg/day for current passenger car stations)
• Ultra-high reliability – to ensure close to 100% available supply for the public transport networks which will rely on hydrogen
• Short refuelling window – buses need to be refuelled in a short overnight window, leading to rapid H2 throughput
• Footprint – needs to be reduced to fit within busy urban bus depots
• Volume of hydrogen storage – which can exceed 10 tonnes per depot and leads to new regulatory and safety constraints
A large and pan-European consortium will develop solutions to these challenges. The consortium involves 10 of Europe’s leading hydrogen station providers. These partners will work with 12 bus operators in Europe, each of whom have demonstrated political support for the deployment of hydrogen bus fleets.
In each location engineering studies will be produced, by collaborative design teams involving bus operators and industrial HRS experts, each defining the optimal design, hydrogen supply route, commercial arrangements and the practicalities for a hydrogen station capable of providing fuel to a fleet of fuel cell buses (75-260 buses).
Public reports will be prepared based on an analysis across the studies, with an aim to provide design guidelines to bus operators considering deploying hydrogen buses, as well as to demonstrate the range of depot fuelling solutions which exist (and their economics) to a wider audience.
These results will be disseminated widely to provide confidence to the whole bus sector that this potential barrier to commercialisation of hydrogen bus technology has been overcome.
Status
CLOSEDCall topic
FCH-01.6-2014Update Date
27-10-2022
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Organisations
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| ELEMENT ENERGY LIMITED (Coördinator)
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| ABENGOA HIDROGENO SA (AH)
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| ABERDEEN CITY COUNCIL*
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| AIR PRODUCTS GMBH
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| AIR PRODUCTS PLC
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| AKERSHUS FYLKESKOMMUNE
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| BIRMINGHAM CITY COUNCIL
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| EMPRESA MUNICIPAL DE TRANSPORTES DE MADRID SA
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| EVOBUS GMBH
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| FFG FAHRZEUGWERKSTATTEN FALKENRIED GMBH
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| HAMBURGER HOCHBAHN AG
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| HYDROGENICS GMBH
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| HYOP AS
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| INGENIEURTEAM BERGMEISTER SRL
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| ISTITUTO PER INNOVAZIONI TECNOLOGICHE BOLZANO SCARL