GLAMOUR | GLycerol to Aviation and Marine prOducts with sUstainable Recycling

Summary
The key objective of the GLAMOUR project is the design, scale-up and validation of an integrated process that converts the waste bio-based feedstock such as crude glycerol into aviation and marine diesel fuels. The focus of the project will be a combination of high pressure, auto-thermal reforming/gasification using chemical looping to produce syngas and the integration of Fischer-Tropsch compact reactor integrated with 3D printed structured catalyst. The GLAMOUR process will achieve full conversion of the crude glycerol into synthetic paraffine kerosene (FT-SPK) to be used as jetfuel and into marine diesel oil (MDO) with an energy efficiency of 65% and the remaining gas will be converted into pure CO2 stream (purity >95%) and extra heat available. These improvements would increase the overall revenue of existing 2nd generation bio-diesel plants reducing the cost for large scale biomass-to-liquid production processes by 35% and the CO2 emissions up to 70%.
The project will focus on the scale up of the two processes to achieve a final TRL5 demonstration for 1000 hours by using 2 kg/h of glycerol in a packed bed chemical looping systems and a downstream FT reactor.
The consortium includes two universities, three large research centres and 5 industries (including SMEs) which will combine fundamental knowledge on gas-solid and catalytic reactions, material design and engineering process design, economics, environmental analysis, societal and policy making decision.
In the long term, GLAMOUR could unlock low cost feedstock with cost decrease of 65%, increase the production of biofuel to achieve the overall bio-jet fuel production to move 19% of the EU passengers reducing the CO2 emissions up to 27 Mt/year and generating a scalable business up to 11 bln/years.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/884197
Start date: 01-05-2020
End date: 31-10-2024
Total budget - Public funding: 4 993 130,00 Euro - 4 989 126,00 Euro
Cordis data

Original description

The key objective of the GLAMOUR project is the design, scale-up and validation of an integrated process that converts the waste bio-based feedstock such as crude glycerol into aviation and marine diesel fuels. The focus of the project will be a combination of high pressure, auto-thermal reforming/gasification using chemical looping to produce syngas and the integration of Fischer-Tropsch compact reactor integrated with 3D printed structured catalyst. The GLAMOUR process will achieve full conversion of the crude glycerol into synthetic paraffine kerosene (FT-SPK) to be used as jetfuel and into marine diesel oil (MDO) with an energy efficiency of 65% and the remaining gas will be converted into pure CO2 stream (purity >95%) and extra heat available. These improvements would increase the overall revenue of existing 2nd generation bio-diesel plants reducing the cost for large scale biomass-to-liquid production processes by 35% and the CO2 emissions up to 70%.
The project will focus on the scale up of the two processes to achieve a final TRL5 demonstration for 1000 hours by using 2 kg/h of glycerol in a packed bed chemical looping systems and a downstream FT reactor.
The consortium includes two universities, three large research centres and 5 industries (including SMEs) which will combine fundamental knowledge on gas-solid and catalytic reactions, material design and engineering process design, economics, environmental analysis, societal and policy making decision.
In the long term, GLAMOUR could unlock low cost feedstock with cost decrease of 65%, increase the production of biofuel to achieve the overall bio-jet fuel production to move 19% of the EU passengers reducing the CO2 emissions up to 27 Mt/year and generating a scalable business up to 11 bln/years.

Status

SIGNED

Call topic

LC-SC3-RES-23-2019

Update Date

26-10-2022
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Horizon 2020
H2020-EU.3. SOCIETAL CHALLENGES
H2020-EU.3.3. SOCIETAL CHALLENGES - Secure, clean and efficient energy
H2020-EU.3.3.3. Alternative fuels and mobile energy sources
H2020-EU.3.3.3.0. Cross-cutting call topics
H2020-LC-SC3-2019-NZE-RES-CC
LC-SC3-RES-23-2019 Development of next generation biofuel and alternative renewable fuel technologies for aviation and shipping