We focus on ten societal areas.
TNO cooperates with companies, the public sector and other organisations, to apply our knowledge and expertise with and for others.
We develop knowledge not for its own sake, but for practical application.
TNO offers you the chance to do groundbreaking work and help customers and society with innovative, practical and smart solutions.
On TNO Insights you can read in-depth interviews and articles. Get inspired by TNO’s innovations!
Aviation is one of the most challenging sectors when it comes to reducing CO2 emissions. One of the reasons is that common alternatives such as electrification or hydrogen propulsion, are not expected to be a suitable substitute to kerosene for long haul flights in the coming decades. Sustainable aviation fuel (SAF) produced from non-fossil resources is the only approach that could significantly reduce greenhouse gas emissions related to air transport in the near term.
Launched in January 2021, the EU project Take-Off, Production of synthetic renewable aviation fuel from CO2 and H2, will, in the next 4 years, generate a detailed picture of the technical, environmental and economic performances of their promising power-to-liquid SAF production route. This project will contribute to reduce the aviation’s carbon footprint and reach several sustainable development goals (SDGs 7, 9 and 13).
Take-Off will enable the development and industrial validation of the complete technology chain from CO2 to SAF. This technology route aims to deliver a highly innovative process which produces SAF at lower costs and higher energy efficiency compared to other power-to-liquid alternatives.
The Take-Off route consists of capturing CO2 from industrial flue gas which reacts with hydrogen produced by renewable electricity to create light olefins. These light olefins are subsequently chemically upgraded into SAF. All innovative steps upgrading CO2 will be demonstrated under industrially relevant conditions.
The project consortium, led by TNO, gathers partners coming from the entire technology chain ranging from a leading energy supplier (RWE Power), power and energy solution company (Mitsubishi Power Europe), interdisciplinary research institutions (TNO, CNRS, RWTH, SDU), design/engineering companies (AKEU, FEV) and the European Association representing the Carbon Capture and Utilisation (CCU) community in Europe (CO2 Value Europe).
Pioneer and global leader in sustainable SAF, SkyNRG is involved to analyse the fuel quality and report on its suitability for usage in aircraft. A strong advisory board including key players of the aviation industry and major oil & gas companies has been assembled to support the project consortium, guide the research and ensure the uptake of the lessons learned.
“Take-Off will deliver a next step development to convert CO2 in an efficient manner towards sustainable aviation fuel, making flying in the future CO2 neutral. Take-Off has collected the best minds in Europe to work together on this challenge and to be able to demonstrate the technical-economic and environmental merit of its methodology.”
“We support the diversification of Sustainable Aviation Fuel (SAF) technologies, especially when CO2 is used as feedstock. We believe this is a promising pathway. We are proud to contribute to the Take-Off project by providing our knowledge, and over 10-year experience in SAF."
“Take-Off is an important step in the production of sustainable aviation fuel from recycled CO2 and renewable electric power. The Take-Off demonstrator at RWE’s Innovation Center at Niederaussem is a milestone on the path towards commercialization of the technology and provides a blueprint for sector coupling and climate change mitigation.”
“Being a partner of the project allows us to bring our know-how to move the aviation industry towards zero-emission technology in the long term. This is what we are committed to as a company.”
For more information, please do not hesitate to contact us.
The Take-Off project has received funding from the European Commission under the Horizon 2020 programme Ref: 101006799.