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Aduro receives $1.15M joint NSERC Alliance-Mitacs grant for chemical recycling project


Presented by:
CMO

The objective of this research project is to evaluate the effects of intrinsic and extrinsic contaminants present in plastic feedstocks including food, organic waste, plasticizers, and fillers.

October 27, 2022  By  Canadian Manufacturing


Aduro receives $1.15M joint NSERC Alliance-Mitacs grant for chemical recycling project

SARNIA — Aduro Clean Technologies Inc., a Canadian developer of patented water-based technologies to chemically recycle plastics and to transform heavy crude and renewable oils into new-era resources, in partnership with the University of Western Ontario, announces that a joint research project entitled “Tuning Supercritical Fluids for Polymer Recycling to Monomers and Chemicals” has been approved and awarded $1.15 million in non-repayable funds by the National Sciences and Engineering Research Council Alliance and Mitacs Accelerate Grants Program.

Over the duration of the project, Aduro will contribute $382,500 (plus HST) with NSERC and Mitacs contributing a total of $1,147,500. This represents a three-to-one ratio of non-dilutive matching of funds directed to supporting and accelerating the Company’s path to commercialization. The research project will commence in November 2022 and will continue for three years.

The objective of this research project is to evaluate the effects of intrinsic and extrinsic contaminants present in plastic feedstocks including food, organic waste, plasticizers, and fillers, under varying conditions to maximize output, quality, and yield. The project also aims to improve pre-and post-processing techniques. The commercial goal is to be able to develop optimal strategies that will minimize the need for expensive sorting and separation systems for pre-processing treatment. The project is expected to advance and further augment the Hydrochemolytic™ process for chemical recycling of mixed post-consumer industrial and consumer plastics.

In collaboration with the Aduro research team, the project will be led by Dr. Paul Charpentier, Professor in the Department of Chemical and Biochemical Engineering and Mechanical and Materials Engineering, at Western University along with the support of Dr. Cedric L. Briens, Professor in the Department of Chemical & Biochemical Engineering, and the Director, R&D, at the Institute for Chemicals and Fuels from Alternative Resources (ICFAR) at Western University.

All intellectual property generated from the project will be owned by Aduro Energy Inc., the wholly owned subsidiary of the Company; however, in support of the strong partnership with Western University, Aduro will encourage the researchers to publish relevant academic papers once the data is protected.

“The project is a great opportunity to again collaborate with Aduro,” said Dr. Paul Charpentier, Professor at Western University. “The project will also support advanced training of many graduate students and post-doctoral fellows who will be the research and industry leaders of tomorrow in chemical recycling.”


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Aduro receives $1.15M joint NSERC Alliance-Mitacs grant for chemical recycling project


Presented by:
CMO

The objective of this research project is to evaluate the effects of intrinsic and extrinsic contaminants present in plastic feedstocks including food, organic waste, plasticizers, and fillers.

October 27, 2022  By  Canadian Manufacturing


Aduro receives $1.15M joint NSERC Alliance-Mitacs grant for chemical recycling project

SARNIA — Aduro Clean Technologies Inc., a Canadian developer of patented water-based technologies to chemically recycle plastics and to transform heavy crude and renewable oils into new-era resources, in partnership with the University of Western Ontario, announces that a joint research project entitled “Tuning Supercritical Fluids for Polymer Recycling to Monomers and Chemicals” has been approved and awarded $1.15 million in non-repayable funds by the National Sciences and Engineering Research Council Alliance and Mitacs Accelerate Grants Program.

Over the duration of the project, Aduro will contribute $382,500 (plus HST) with NSERC and Mitacs contributing a total of $1,147,500. This represents a three-to-one ratio of non-dilutive matching of funds directed to supporting and accelerating the Company’s path to commercialization. The research project will commence in November 2022 and will continue for three years.

The objective of this research project is to evaluate the effects of intrinsic and extrinsic contaminants present in plastic feedstocks including food, organic waste, plasticizers, and fillers, under varying conditions to maximize output, quality, and yield. The project also aims to improve pre-and post-processing techniques. The commercial goal is to be able to develop optimal strategies that will minimize the need for expensive sorting and separation systems for pre-processing treatment. The project is expected to advance and further augment the Hydrochemolytic™ process for chemical recycling of mixed post-consumer industrial and consumer plastics.

In collaboration with the Aduro research team, the project will be led by Dr. Paul Charpentier, Professor in the Department of Chemical and Biochemical Engineering and Mechanical and Materials Engineering, at Western University along with the support of Dr. Cedric L. Briens, Professor in the Department of Chemical & Biochemical Engineering, and the Director, R&D, at the Institute for Chemicals and Fuels from Alternative Resources (ICFAR) at Western University.

All intellectual property generated from the project will be owned by Aduro Energy Inc., the wholly owned subsidiary of the Company; however, in support of the strong partnership with Western University, Aduro will encourage the researchers to publish relevant academic papers once the data is protected.

“The project is a great opportunity to again collaborate with Aduro,” said Dr. Paul Charpentier, Professor at Western University. “The project will also support advanced training of many graduate students and post-doctoral fellows who will be the research and industry leaders of tomorrow in chemical recycling.”


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