Cleantech start-up, CAPHENIA, has commissioned MAN Energy Solutions to build a Plasma Boudouard Reactor (PBR).
This will form the core of CAPHENIA's first production plant, ‘GERMANY I’, located at Industriepark Höchst in Frankfurt am Main, Germany where the company will produce its first renewable fuels in 2024.
Renewable fuel production
The CAPHENIA technology utilises biomethane, CO2, water, and sustainably-generated electricity to produce synthesis gas as a feedstock for renewable fuel production and many other chemical products.
The synthesis gas will be used, for example, as a step in the production of Sustainable Aviation Fuel (SAF), thus contributing to aviation decarbonisation.
Sustainable fuel production
The partnership with MAN Energy Solutions will enable us to establish this scalable technology"
Dr. Mark Misselhorn, CEO of CAPHENIA, commented on the significance of the cooperation, “The construction of this first industrial-scale plant is a milestone for CAPHENIA."
"The partnership with MAN Energy Solutions will enable us to establish this scalable technology, which has the potential to significantly shape the renewable-energy landscape. It is a significant step that shows that our vision of sustainable fuel production is realisable at a large scale.”
Role of decarbonisation
Norbert Anger, site manager at MAN Energy Solutions, Deggendorf, said, “We are proud to supply the reactor technology for this innovative project and to be able to contribute our extensive expertise in the production of renewable fuels."
"We are convinced that synthetic fuels will play a major role in the decarbonisation of all those sectors where direct electrification, such as via batteries, is not an option.”
Efficient process
The PBR developed by MAN will first split the supplied biomethane into hydrogen and carbon. In the next step, CO2 and water will be added to produce the synthesis gas; the reactor can produce 150 kg of synthesis gas per hour.
This can subsequently be converted into Sustainable Aviation Fuel using the Fischer-Tropsch process.
PBtL process
Due to this efficiency, the fuels produced can be offered at competitive prices
CAPHENIA’s power-and-biogas-to-liquid (PBtL) process requires just one-sixth of the electricity of conventional processes for the production of synthesis gas, enabling an end-product CO2 reduction of up to 92%.
Due to this efficiency, the fuels produced can be offered at competitive prices – GERMANY I commissioning is planned for 2024.
Synthetic fuels
In this context, Dr. Christian Schuhbauer, Head of New Technologies at MAN Energy Solutions, Deggendorf, emphasised the importance of the CAPHENIA technology for aviation and added, “Synthetic fuels are of crucial importance to the global economy and aviation decarbonisation can only succeed with their help."
"CAPHENIA has developed an efficient process for the production of Sustainable Aviation Fuel for this purpose and we are very happy to work with them on this exciting project.”