Aduro Selected for Shell GameChanger Program

Aduro Clean Technologies, a Canadian developer of patented water-based technologies to chemically recycle plastics and transform heavy crude and renewable oils into new-era resources and higher-value fuels, announces successful selection and acceptance into the Shell GameChanger program.

Shell GameChanger is an accelerator program designed to partner with businesses to deliver innovative solutions that have the potential to drastically impact the future of energy and the transition to net-zero emissions. Following a rigorous selection process, Aduro has been selected by the Shell GameChanger program to apply its novel Hydrochemolytic™ Technology (“HCT”) to produce sustainable Naphtha Cracker feedstock from polyethylene, polypropylene, and polystyrene, individually or on a mixed basis.

The HCT deconstructs hard-to-recycle chain growth polymers at temperatures lower than those used in current technologies. While legacy technologies produce complex product mixtures that require excess investment of resources, the HCT is expected to create higher-value, saturated products, in high yield and purity using lower energy and has the ability to process higher contaminated feedstock which are currently rejected. The HCT final output may be then directly used for the production of new plastics, demonstrating full circularity.

To support the project, Shell will contribute non-dilutive funding with the contribution payments being spread over six project phases, each phase and associated payment being contingent on meeting the objectives set for the previous phase. In addition, Shell will provide technical expertise to help Aduro develop reliable process designs and optimize the HCT technology for commercial implementation. Shell GameChanger will also mentor Aduro in developing their commercial strategy and market position.

Aduro’s project with Shell GameChanger will commence immediately and is a 12 month, 6 phase project, starting from small-scale batch reactors, moving through a continuous flow reactor, and into design basis of commercial style facilities. The project is devised to support the rapid movement of the process to commercialization while reducing the developmental risk for the technology.


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