Summary
HyLICAL will contribute to reaching an energy demand of 8 kWh/kg and a liquefaction cost of 20% for small liquefaction volumes of 5 TPD; ii) Reduced capital expenditures (CAPEX) and operating expenses (OPEX) by at least 20% in addition to the targeted energy savings; iii) Decentralized (local) production of liquid hydrogen (LH2), thus reducing the need for distribution and transport across long distances; iv) Coupling of the MCHL technology to hydrogen production from renewables (green hydrogen) for off-grid configurations; v) Integration into conventional liquefaction plants to increase their overall energy efficiency; vi) Application of the process for the liquefaction of hydrogen and for boil-off management of LH2 tanks.
The MCHL technology will enable the decentralized production of green LH2, in competition with LH2 from fossil sources, and will furthermore reduce the need to transport LH2 over large distances if there is a local green energy source available (e.g., bio-based or electricity from renewables). We will drive the Technology Relevance Level for MCHL technology from initially TRL 3 to TRL 5 at project end. This will be achieved by significantly increasing the liquefaction capacity of the demonstrator from the current SoA (
The MCHL technology will enable the decentralized production of green LH2, in competition with LH2 from fossil sources, and will furthermore reduce the need to transport LH2 over large distances if there is a local green energy source available (e.g., bio-based or electricity from renewables). We will drive the Technology Relevance Level for MCHL technology from initially TRL 3 to TRL 5 at project end. This will be achieved by significantly increasing the liquefaction capacity of the demonstrator from the current SoA (
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101101461 |
| Start date: | 01-01-2023 |
| End date: | 31-12-2027 |
| Total budget - Public funding: | 4 677 848,75 Euro - 4 677 848,00 Euro |
Cordis data
Original description
HyLICAL will contribute to reaching an energy demand of 8 kWh/kg and a liquefaction cost of 20% for small liquefaction volumes of 5 TPD; ii) Reduced capital expenditures (CAPEX) and operating expenses (OPEX) by at least 20% in addition to the targeted energy savings; iii) Decentralized (local) production of liquid hydrogen (LH2), thus reducing the need for distribution and transport across long distances; iv) Coupling of the MCHL technology to hydrogen production from renewables (green hydrogen) for off-grid configurations; v) Integration into conventional liquefaction plants to increase their overall energy efficiency; vi) Application of the process for the liquefaction of hydrogen and for boil-off management of LH2 tanks.The MCHL technology will enable the decentralized production of green LH2, in competition with LH2 from fossil sources, and will furthermore reduce the need to transport LH2 over large distances if there is a local green energy source available (e.g., bio-based or electricity from renewables). We will drive the Technology Relevance Level for MCHL technology from initially TRL 3 to TRL 5 at project end. This will be achieved by significantly increasing the liquefaction capacity of the demonstrator from the current SoA (
Status
SIGNEDCall topic
HORIZON-JTI-CLEANH2-2022-02-03Update Date
09-02-2023
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Organisations
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| INSTITUTT FOR ENERGITEKNIKK (Coördinator)
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| ASOCIATIA ENERGY POLICY GROUP
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| DANMARKS TEKNISKE UNIVERSITET
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| ENGIE
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| FIVES CRYO
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| HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF EV
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| IBERDROLA CLIENTES SOCIEDAD ANONIMA
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| MAGNOTHERM SOLUTIONS GMBH
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| SHELL GLOBAL SOLUTIONS INTERNATIONAL BV
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| SUBRA A/S
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| TECHNISCHE UNIVERSITAT DARMSTADT
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| UNIVERSIDAD DE SEVILLA
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| UNIVERSITA DI PISA
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| UNIVERSITY OF ULSTER