Summary
The transport sector is dominated by the use of fossil fuels, and alternative fuels represent currently only 5% of fuel consumption in EU. The EU objective for the share of renewable energy in the transport sector is 10% in 2020. To achieve this goal, new advanced biofuels are needed and must be produced from alternative feedstocks. The Pulp&Fuel concept is to develop a simple and robust fuel synthesis process taking advantage of the synergy between super critical water gasification (wet gasification) and fixed bed gasification (dry gasification). For the Pulp&Fuel project, we have chosen to study the integration of the full process on a pulp mill. The developed process will take advantage of low to negative value wet and dry resources on a paper mill to add value to the overall process. The yield of biofuels will be significantly increased to 28 % compared to a classic approach that would only yield 18 %. The Pulp&Fuel final objective is to produce biofuels below 1 €/L without having a negative impact on the existing operations of the pulp mill. To achieve these goals a team of 10 partners, leaders in their field, from 4 EU-member states, will join efforts. To this end, we have defined five ambitious specific objectives: - Improve the efficiency of the dry gasification process from 70 to 80 % - Improve the carbon conversion of the wet gasification process to above 90 % - Improve fuel synthesis to obtain carbon efficiencies above 50 % (state of the art 45%) - Integration of the full process and synergy between dry and wet gasification - Integrated assessments will show that biofuels can be produced below 1 €/L Related work packages, tasks, milestones and risks are considered in order to achieve these objectives. The Pulp&Fuel project addresses the topic “liquid diesel- and gasoline-like biofuels from biogenic residues and wastes through either chemical, biochemical and thermochemical pathways, or a combination of them” of the LC-SC3-RES-21-2018 call.
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| Web resources: | https://cordis.europa.eu/project/id/818011 |
| Start date: | 01-10-2018 |
| End date: | 31-03-2023 |
| Total budget - Public funding: | 4 954 341,00 Euro - 4 954 341,00 Euro |
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Original description
The transport sector is dominated by the use of fossil fuels, and alternative fuels represent currently only 5% of fuel consumption in EU. The EU objective for the share of renewable energy in the transport sector is 10% in 2020. To achieve this goal, new advanced biofuels are needed and must be produced from alternative feedstocks. The Pulp&Fuel concept is to develop a simple and robust fuel synthesis process taking advantage of the synergy between super critical water gasification (wet gasification) and fixed bed gasification (dry gasification). For the Pulp&Fuel project, we have chosen to study the integration of the full process on a pulp mill. The developed process will take advantage of low to negative value wet and dry resources on a paper mill to add value to the overall process. The yield of biofuels will be significantly increased to 28 % compared to a classic approach that would only yield 18 %. The Pulp&Fuel final objective is to produce biofuels below 1 €/L without having a negative impact on the existing operations of the pulp mill. To achieve these goals a team of 10 partners, leaders in their field, from 4 EU-member states, will join efforts. To this end, we have defined five ambitious specific objectives: - Improve the efficiency of the dry gasification process from 70 to 80 % - Improve the carbon conversion of the wet gasification process to above 90 % - Improve fuel synthesis to obtain carbon efficiencies above 50 % (state of the art 45%) - Integration of the full process and synergy between dry and wet gasification - Integrated assessments will show that biofuels can be produced below 1 €/L Related work packages, tasks, milestones and risks are considered in order to achieve these objectives. The Pulp&Fuel project addresses the topic “liquid diesel- and gasoline-like biofuels from biogenic residues and wastes through either chemical, biochemical and thermochemical pathways, or a combination of them” of the LC-SC3-RES-21-2018 call.Status
CLOSEDCall topic
LC-SC3-RES-21-2018Update Date
26-10-2022
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Organisations
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| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA) (Coördinator)
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| ABSISKEY
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| ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE (EPFL)
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| FIBRE EXCELLENCE R&D KRAFT
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| FIBRE EXCELLENCE SAINT-GAUDENS SAS
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| INSTITUT POLYTECHNIQUE DE GRENOBLE
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| IVL SVENSKA MILJOEINSTITUTET AB
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| RISE ENERGY TECHNOLOGY CENTER AB
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| SINTEF AS (SINTEF)
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| SOFRESID ENGINEERING
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| SOFSID
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| SP SVERIGES TEKNISKA FORSKNINGSINSTITUT AB
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| TOP INDUSTRIE