BBA helped install and operate the SAF+ pilot plant to convert industrial carbon emissions into new sustainable aviation fuel, with 80% fewer GHG effects than conventional kerosene.
This project is part of the Polytechnique Montréal green chemistry and sustainable engineering platform, which is designed to advance energy decarbonization projects, in collaboration with industrial partners such as the SAF+ Consortium. The CO2 is captured and recovered by the Polytechnique Montréal plant and then sent to the SAF+ plant to be converted into sustainable fuel.
BBA was mandated to provide engineering, project management and construction management to install the SAF+ plant as well as operate the Polytechnique Montréal CO2 capture plant and the SAF+ plant. The SAF+ solution was largely based on integrating and optimizing existing technologies while also being innovative. The resulting process was also new and, therefore, have never been operated before.
BBA supported the SAF+ Consortium and Polytechnique Montréal with installing and operating a pilot plat to capture, purify and convert industrial carbon emissions into new Please provide a brief description of the project? sustainable aviation fuel, with 80% fewer GHG effects. This type of fuel could transform the future of civil and commercial aviation by contributing greatly to the decarbonization effort. This is the first project to be undertaken in Québec to capture and convert CO2 into a usable product and is a precursor in North America.
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BBA
Polytechnique Montréal
SAF+ Consortium
