40-million-euro sustainable kerosene research project CARE-O-SENE receives funding

The aim of the project is to develop novel, next-generation Fischer-Tropsch catalysts and thus to optimise the production of sustainable kerosene – or Sustainable Aviation Fuel (SAF) – on an industrial scale.

The aim of the project is to develop novel, next-generation Fischer-Tropsch catalysts and thus to optimise the production of sustainable kerosene – or Sustainable Aviation Fuel (SAF) – on an industrial scale. © Adobe Stock

Six partners from Germany and South Africa are involved in the CARE-O-SENE project (SASOL, HZB, IKTS, KIT, UCT, INERATEC).

Six partners from Germany and South Africa are involved in the CARE-O-SENE project (SASOL, HZB, IKTS, KIT, UCT, INERATEC).

The international research project CARE-O-SENE (Catalyst Research for Sustainable Kerosene) was granted 30 million euros in funding by the German Federal Ministry of Education and Research (BMBF). Additionally, the industrial consortium partners contribute 10 million euros. The aim of the project is to develop novel, next-generation Fischer-Tropsch catalysts and thus to optimise the production of sustainable kerosene – or Sustainable Aviation Fuel (SAF) – on an industrial scale. Helmholtz-Zentrum Berlin (HZB) is part of this collaboration.

Sustainable kerosene is not based on fossil-based raw materials like conventional kerosene but on green hydrogen and carbon dioxide. The technology contributes significantly to sustainably decarbonising sectors such as aviation, since fossil fuels are particularly difficult to replace in this area.

Research partners for the next generation of Fischer-Tropsch catalysts in CARE-O-SENE include Sasol Germany GmbH, Sasol Limited and the HelmholtzZentrum Berlin fuer Materialien und Energie (Helmholtz Centre for Materials and Energy, HZB). Others are the Fraunhofer Institute for Ceramic Technologies and Systems (IKTS), the Karlsruhe Institute of Technology (KIT), The University of Cape Town (UCT) and INERATEC GmbH.

This project is a building block of the German National Hydrogen Strategy

Dr Dirk Schaer, Lead Technical Marketing Catalyst at Sasol says: “Our work is an important building block of the German National Hydrogen Strategy. We are delighted that the BMBF has recognised the enormous potential in the CARE-O-SENE research project on the novel Fischer-Tropsch catalysts and supports the work.”

“We are absolutely delighted about the start of CARE-O-SENE,” adds Dr Tobias Sontheimer, Head of Strategy - Energy and Information at HZB. “The fact that each partner can contribute dedicated expertise in catalysis research and work so closely with successful companies on technological implementation makes the project very special.”

German Chancellor Olaf Scholz and the South African President Cyril Ramaphosa gave the go-ahead for the CARE-O-SENE project at a ceremony at Sasol’s headquarters in Johannesburg in May this year. Now that the positive funding decision has been taken, the research work can begin.

(red.)

  • Copy link

You might also be interested in

  • Almost 4,000 People at the Long Night of the Sciences at HZB
    News
    01.07.2025
    Almost 4,000 People at the Long Night of the Sciences at HZB
    Helmholtz-Zentrum Berlin was delighted to welcome nearly 4,000 visitors to its Adlershof campus for the Long Night of the Sciences. It was a fantastic celebration of science, and we thank all our guests for their great interest.

  • New Helmholtz Young Investigator Group at HZB on perovskite solar cells
    News
    26.06.2025
    New Helmholtz Young Investigator Group at HZB on perovskite solar cells
    Silvia Mariotti is returning to HZB as head of the new Helmholtz Young Investigator Group ‘Perovskite-based multi-junction solar cells’. The perovskite expert, who was previously based at Okinawa University in Japan, aims to advance the development of multi-junction solar cells made from different perovskite layers.
  • Hydrogen storage in MXene: It all depends on diffusion processes
    Science Highlight
    23.06.2025
    Hydrogen storage in MXene: It all depends on diffusion processes
    Two-dimensional (2D) materials such as MXene are of great interest for hydrogen storage. An expert from HZB has investigated the diffusion of hydrogen in MXene using density functional theory. This modelling provides valuable insights into the key diffusion mechanisms and hydrogen's interaction with Ti₃C₂ MXene, offering a solid foundation for further experimental research.