KAUST and the Arabian Petroleum Supply Company (Apsco) have signed a material transfer agreement for Apsco to supply KAUST with sustainable aviation fuel (SAF). KAUST researchers will study the fuel's chemical properties, reaction pathways, and combustion behavior to develop models for future SAF formulations. The research aims to address critical knowledge gaps in SAF adoption, such as emissions behavior and performance across operating environments. Why it matters: The partnership supports Saudi Arabia's aviation sector's move towards lower-carbon solutions and the development of domestic SAF technologies.
Aramco has signed an MoU with KAUST, pledging to fund up to $100 million in R&D projects over the next 10 years. The collaboration will focus on areas like energy transition, sustainability, materials transition, upstream technologies, and digital solutions. Specific research areas include liquids-to-chemicals conversion, low-carbon aviation fuels, hydrogen, and carbon capture. Why it matters: This major investment will accelerate innovation in critical areas like sustainable energy and materials science, aligning Saudi Arabia's research priorities with its economic diversification goals.
Researchers from King Abdullah University of Science and Technology (KAUST) and Aramco have achieved the highest reported efficiency in converting carbon dioxide into jet fuel-range hydrocarbons, a critical step for sustainable aviation fuel (SAF) development. Their work, published in ChemCatalysis, details a machine learning-driven approach that identified an unconventional copper-rich catalyst capable of yielding 75% jet fuel-range product and operating continuously for over 1,000 hours. The upgraded liquid fuel met key prescreening parameters aligned with international aviation standards, including flash point and energy content. Why it matters: This breakthrough offers a more efficient and stable pathway for producing SAF from captured CO₂, addressing a significant challenge in decarbonizing the hard-to-abate aviation sector.
Saudi Air Navigation Services (SANS) and KAUST have signed an MoU to collaborate on research, innovation, and advanced technology deployment in aviation. The partnership aims to leverage KAUST's AI and data analytics expertise to support SANS' digital transformation and the National Aviation Strategy. The collaboration will focus on developing data-driven solutions for air traffic management, operational efficiency, and national capability development. Why it matters: This MoU signifies a strategic alignment between academia and a key aviation sector player to advance technological capabilities and support Saudi Arabia's national transport and logistics strategy.