13 August, 2024

A world first sustainable aviation fuel production facility at Oxford Airport opens........

OXCCU, a leading carbon-to-value company converting carbon dioxide into fuels, chemicals and plastics, proudly announces the launch of its first official demonstration plant, OX1, at Oxford Airport. OXCCU, a climate tech spin-out company from the University of Oxford, is developing novel catalysts and reactor designs to convert carbon dioxide and hydrogen into hydrocarbons with high conversion and selectivity for use as fuels, chemicals and plastics. The company is headquartered in the UK, with operations at Begbroke Science Park, Oxford, and London Oxford Airport.



The OX1 plant represents a significant advancement in Sustainable Aviation Fuel (SAF) production. Through its novel catalyst and reactor design, the subject of over a decade of research at the University of Oxford, the plant will convert carbon dioxide (CO2) and hydrogen (H2) directly to long-chain hydrocarbons with high conversion and selectivity for use as SAF, named OX•EFUEL™.

This FOAK facility, based at London Oxford Airport and designed and operated by OXCCU, will produce 1 kg (~1.2 litres) of liquid fuel per day and will start operations in September 2024. The plant will be the world’s first demonstration of the direct conversion of CO2 and H2 to jet fuel range hydrocarbons in a single step with minimal oxygenated byproducts using OXCCU’s novel catalyst. The plant is part of OXCCU’s strategic scale up journey as the first OXCCU plant out of the lab. It will provide the data key to the design, build and operations of the 160 kg (200 litres) per day OX2 plant, previously announced, which will operate at Saltend Chemical Park Hull in 2026. Commercial plants supplying the UK and elsewhere with PtL SAF will then follow.


Unlike other firms working on Power-to-Liquid (PtL) fuels, OXCCU has reduced a traditionally multi-step process to a single step, avoiding the need to first convert CO2 to CO – a difficult to electrify and energy intensive first step. This innovative approach is key to reducing the cost of PtL SAF, which is currently the main barrier to PtL SAF adoption.

Key Highlights:

The OX1 plant at Oxford Airport is the first demonstration plant to convert CO2 and H2 into long-chain hydrocarbons through its one-step process, setting a new standard in SAF production.

OX•EFUEL™, produced through OXCCU’s patented single step process, offers a cost-effective and scalable solution to aviation fuel needs, with significantly lower capital and operational costs than other PtL SAF pathways.

This plant showcases British innovation at its best, developed through a decade of research at the University of Oxford and supported by significant industry and government investment.

Andrew Symes, CEO of OXCCU, said: “We’re beyond excited to launch the OX1 plant, located close to where OXCCU was born. The fuel we’ve already made in a single step from CO2 in the lab has created great excitement with its potential to massively reduce the cost of SAF, but the scale up is key, and this plant will generate the data and litres of fuel we need. Our mission is to enable future generations to fly without a climate impact, and to do that we need cost-effective PtL SAF. This launch marks a key step in achieving that goal.”




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Available to customers as OXEFUEL, OXCCU’s sustainable aviation fuel is created by combining captured carbon dioxide and renewably-sourced green hydrogen through a novel iron-based catalyst, resulting in a more cost-effective and decarbonized alternative to fossil-based Jet A fuel for commercial airlines. Modelling completed by independent researchers from Imperial College London, through Imperial Consultants, has shown OXCCU’s one-step process significantly reduces SAF cost due to higher selectivity yield in the jet fuel range and a 50% lower capital cost.  

OXCCU scores £2.8 Million UK Government grant to scale sustainable aviation fuel production in November 2023. They won a £2.8 million grant along with the University of Sheffield Translational Energy Research Centre (TERC) and Coryton. The capital will be used to demonstrate the world’s first direct carbon dioxide (CO2) hydrogenation process, turning CO2  directly into aviation fuel range hydrocarbons, also known as sustainable aviation fuel (SAF).

UK Government release aviation SAF plan to support growth of British aviation sector.

 ‘World’s First’ Sustainable Aviation Fuel Project to be Built at Saltend......

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