International consortium to advance decarbonisation of the aviation sector

© Sasol

JOHANNESBURG, SOUTH AFRICA – 24 May 2022: CARE-O-SENE research project will develop advanced catalysts for sustainable aviation fuels

The company Sasol and Helmholtz-Zentrum Berlin (HZB) will lead a consortium to develop and optimise next-generation catalysts that will play a key role in decarbonising the aviation sector through sustainable aviation fuels (SAF).

At a ceremony at Sasol’s global headquarters in Johannesburg today, South African President Cyril Ramaphosa and German Chancellor Olaf Scholz attended the launch of CARE-O-SENE (Catalyst Research for Sustainable Kerosene) research project, to be funded by the German Federal Ministry of Education and Research (BMBF) and Sasol.

Sasol joins forces with five other world-leading organisations in Germany and South Africa to accelerate the development of catalysts that are essential to produce green kerosene on a commercial scale through Fischer-Tropsch (FT) technology.

“We are delighted to have been selected to lead this important project,” said Fleetwood Grobler, President and Chief Executive Officer of Sasol Limited. “Our expertise in FT technology and catalysts makes us the ideal partner to help Germany and the world decarbonise the aviation sector and make it sustainable over the long-term.”

Prof. Dr. Bernd Rech, Scientific Managing Director of HZB adds, “CARE-O-SENE will enable us to accelerate innovation in a crucial field of green energy. This can only be achieved in a global partnership by deeply integrating fundamental research and technology development on an industry relevant scale.”

Other CARE-O-SENE project partners include the Fraunhofer Institute for Ceramic Technologies and Systems (IKTS), the Karlsruhe Institute of Technology (KIT), the University of Cape Town, Department of Chemical Engineering (UCT) and INERATEC GmbH. The consortium expresses its sincere gratitude to the German Federal Ministry of Education and Research for supporting these important efforts.

CARE-O-SENE will run for three years and pursues the goal of setting the course for large-scale commercialisation of green kerosene production by 2025 with its research on catalysts. Catalysts are used to speed up chemical reactions, increase the yield and improve the quality of refined products. The new FT catalysts are expected to increase the fuel yield of the process to over 80 percent, thereby optimising use of resources.

Unlike conventional kerosene derived from fossil feedstocks, SAF can be made from green hydrogen and sustainable carbon dioxide sources. Developing SAF is key to a sustainable decarbonisation of the hard-to-abate aviation industry, and the main lever for net zero aviation. The underlying technology to developing SAF at scale from green hydrogen and sustainable carbon sources is FT technology, in which Sasol has been a global leader for more than 70 years.


Links

(sz)

You might also be interested in

  • Podcast | Der Klimawandel und die Stadt: Mehr Grün oder mehr Photovoltaik?
    Nachricht
    12.08.2022
    Podcast | Der Klimawandel und die Stadt: Mehr Grün oder mehr Photovoltaik?
    Wie umgehen mit begrenztem Platz? Städte und Kommunen müssen sich jetzt auf die Folgen des Klimawandels vorbereiten. Gründächer, begrünte Fassaden und großflächige Entsiegelungen könnten zu einem besseren Mikroklima beitragen. Aber wird der Platz nicht auch für Photovoltaik benötigt?

    In einem kontroversen Gespräch loten die Experten Björn Rau (HZB, BAIP) und Jens Hasse (Deutsches Institut für Urbanistik) die Optionen aus und finden neue Lösungen.

  • Humboldt Fellow Alexander Gray comes to HZB
    News
    12.08.2022
    Humboldt Fellow Alexander Gray comes to HZB
    Alexander Gray from Temple University in Philadelphia, USA, is working with HZB physicist Florian Kronast to investigate novel 2D quantum materials at BESSY II. With the fellowship from the Alexander von Humboldt Foundation, he can now deepen this cooperation. At BESSY II, he wants to further develop depth-resolved X-ray microscopic and spectroscopic methods in order to investigate 2D quantum materials and devices for new information technologies even more thoroughly.
  • Green hydrogen: Nanostructured nickel silicide shines as a catalyst
    Science Highlight
    11.08.2022
    Green hydrogen: Nanostructured nickel silicide shines as a catalyst
    Electrical energy from wind or sun can be stored as chemical energy in hydrogen, an excellent fuel and energy carrier. The prerequisite for this, however, is efficient electrolysis of water with inexpensive catalysts. For the oxygen evolution reaction at the anode, nanostructured nickel silicide now promises a significant increase in efficiency. This was demonstrated by a group from the HZB, Technical University of Berlin and the Freie Universität Berlin as part of the CatLab research platform with measurements among others at BESSY II.