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Lignin as a feedstock for renewable marine fuels

PROJECTS
Funding
European
European Union
Duration
-
Status
Ongoing
Total project cost
€4 772 653
EU Contribution
€4 772 652
Project website
Project Acronym
IDEALFUEL
STRIA Roadmaps
Low-emission alternative energy for transport (ALT)
Transport mode
Waterborne icon
Transport policies
Decarbonisation

Overview

Call for proposal
H2020-LC-SC3-2019-NZE-RES-CC
Link to CORDIS
Background & Policy context

Lignocellulosic biomass is mainly composed of three polymers: cellulose, hemicellulose and lignin. The last can be used as maritime fuel. The EU-funded IDEALFUEL project will study the sustainable use of lignin. It will develop an efficient and low-cost chemical pathway to convert lignocellulosic biomass into a bio heavy fuel oil (bio-HFO) with ultra-low sulfur levels that can be used as drop-in fuel in the existing maritime fleet. The project aims to develop new technologies, solutions and processes, and to demonstrate the performance and compatibility of the bio-HFO in maritime fuel systems and marine engines. The fuel oils that ships usually use can have sulfur content of up to 3.5 % – much higher than the sulfur content of fuels used in trucks, which must not exceed 0.001 %.

Objectives

The overall goal of IDEALFUEL is to enable the utilization of lignin from lignocellulosic biomass as maritime fuel in a sustainable manner. IDEALFUEL aims to develop an efficient and low-cost chemical pathway to convert lignocellulosic biomass into a Bio Heavy Fuel Oil (Bio-HFO) with ultra-low sulphur levels that can be used as drop-in fuel in the existing maritime fleet.
This will be achieved by the strategy to first extract lignin from lignocellulosic biomass as a Crude Lignin Oil (CLO) and to convert the CLO - in a second chemical step - into a Bio-HFO. The solid cellulose fraction, which will be separated from the CLO via simple filtration, can be used in the pulp and paper industry or converted into ethanol. Hemicellulose will either be separated from the CLO or end up in the Bio-HFO.
IDEALFUEL’s ambition is to develop new technologies, solutions and processes from the current lab-scale (TRL3) via bench-scale (TRL4) to pilot scale (TRL5) and to prove the performance and compatibility of the Bio-HFO over the whole blending range in maritime fuel systems and marine engines. This includes a safety evaluation, which is necessary for the approval by the relevant regulatory bodies.
Further, IDEALFUEL will prove the techno-economic potential to reach a cost level of 700 € per tonne in 2025, 600 € per tonne in 2030 and < 500 € per tonne beyond 2030 resulting from optimisation, scaling effects of larger plant sizes and repetitive installations. This is cost competitive with Ultra-Low Sulphur Fuel Oil (ULSFO) which current, 2019, price level is 450-550 €/ton. IDEALFUEL will also carry out a Well to Propeller impact assessment and Life Cycle Analysis to check and proof the soundness of the environmental, society and sustainability aspects of the to be developed technologies, processes, products and logistics.

Funding

Parent Programmes
Institution Type
Public institution
Type of funding
Public (EU)
Specific funding programme
H2020-EU.3.3.3. - Alternative fuels and mobile energy sources
Other Programme
LC-SC3-RES-23-2019 Development of next generation biofuel and alternative renewable fuel technologies for aviation and shipping

Results

Periodic Reporting for period 1 - IDEALFUEL (Lignin as a feedstock for renewable marine fuels)
The EU H2020 project IDEALFUEL aims to develop an efficient and low-cost chemical pathway to convert lignocellulosic biomass into a Biogenic Heavy Fuel Oil (Bio-HFO) with ultra-low sulphur levels that can be used as drop-in fuel in the existing maritime fleet. Shipping is...

Partners

Lead Organisation
Organisation
TECHNISCHE UNIVERSITEIT EINDHOVEN
Address
GROENE LOPER 3, 5612 AE EINDHOVEN, Netherlands
Organisation website
EU Contribution
€963 000
Partner Organisations
Organisation
THYSSENKRUPP MARINE SYSTEMS GMBH
Address
WERFTSTRASSE 112-114, 24143 Kiel, Germany
EU Contribution
€150 998
Organisation
VARO ENERGY NETHERLANDS BV
Address
WAALHAVEN Z.Z. 11, 3089 JH Rotterdam, Netherlands
EU Contribution
€203 191
EU Contribution
€500 983
Organisation
BLOOM BIORENEWABLES SA
Address
ROUTE DE L'ANCIENNE PAPETERIE 106, 1723 Marly, Switzerland
EU Contribution
€541 875
Organisation
OWI SCIENCE FOR FUELS GMBH
Address
KAISERSTRASSE 100, 52134 HERZOGENRATH, Germany
EU Contribution
€531 875
Organisation
GOODFUELS BV
Address
DANZIGERKADE 15B, 1013 AP Amsterdam, Netherlands
EU Contribution
€299 250
Organisation
AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS
Address
CALLE SERRANO 117, 28006 MADRID, Spain
Organisation website
EU Contribution
€535 606
EU Contribution
€189 875
Organisation
TEC4FUELS
Address
Kaiserstrasse 100, 52134 Herzogenrath, Germany
EU Contribution
€367 375
Organisation
VERTORO BV
Address
URMONDERBAAN 22, 6167 RD Geleen, Netherlands
EU Contribution
€488 625
Organisation
SeaNRG BV
Address
De Lairessestraat 180, 1075hm Amsterdam, Netherlands
EU Contribution
€0

Technologies

Technology Theme
Alternative fuels
Technology
Biofuels from wood
Development phase
Demonstration/prototyping/Pilot Production

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