Jul 6 2017
“We are confident that Shell is the right industry partner to commercialize our low carbon intensity renewable fuel process,” says Inder Singh, SBI’s founding president & CEO. “Working with Shell means that we have a partner with proven capabilities to investigate the potential this technology has for global application and that is something that is very exciting for us.”
SBI uses a continuous catalytic process that converts fat, oil or grease into renewable gasoline, diesel and jet fuel that can be dropped directly in to petroleum fuels. SBI’s drop-in products do not require blending or any modifications to engines or infrastructure. Biofuels emit less CO2 than petroleum products so their addition to fuels has the potential to reduce transport emissions and help fuel suppliers to meet lower carbon or renewable fuel standards.
“SBI has a promising new Canadian biofuels technology,” says Andrew Murfin, general manager, advanced biofuels for Shell. “This is a great opportunity for us to combine Shell’s innovation and commercialization capabilities with SBI’s technical expertise to investigate the potential this technology has for commercial application.”
Shell believes biofuels are essential to decarbonize transport fuels because they represent one of the most practical, commercial and cost-efficient solution to reduce CO2 emissions in the transport fuels sector over the next twenty years. Raízen, a joint venture between Shell and the Brazilian company Cosan, is one of the world’s largest producer of sugar-cane ethanol. Shell is also developing advanced biofuels made with non-edible plants and crop waste.
SBI uses a continuous catalytic process that converts fat, oil, or grease into renewable gasoline, diesel, and jet fuel. SBI’s continuous flow process called “Process Intensification and Continuous Flow-Through Reaction” (PICFTR) was originally developed for production of advanced pharmaceuticals and fine chemical intermediates. Compared to conventional reactor systems, PICFTR enables SBI to have a smaller physical footprint and the ability to quickly scale-up with much lower risk. SBI’s proprietary catalysts, called “Continuous Green Catalysts” (CGCTM), are inexpensive, have a long active life, and are easy to rejuvenate. CGCTM catalysts function in a way that does not require the addition of hydrogen, consumable chemicals, or water to the reaction, generate any waste stream.