Acceleware Ltd. and Aurora Hydrogen Inc. announce $2M in shared funding for hydrogen collaboration
February 22, 2023
By Canadian Manufacturing
CALGARY — Acceleware Ltd., a developer of technologies targeting the decarbonization of industrial heating, and Aurora Hydrogen, announce the successful award to Aurora Hydrogen Inc. of $2 million from the Alberta Innovates Hydrogen Centre of Excellence as part of their ‘Advancing Hydrogen – Competition 1’ program. The funding is to be shared equally between Aurora and Acceleware to support a joint development project involving methane pyrolysis using radio frequency (RF) energy, subject to the execution of definitive agreements which are currently in progress.
In the $5.5 million project, Aurora and Acceleware will collaborate to develop a clean and scalable hydrogen (H2) production process, while supporting a transformative opportunity for Canada’s energy sector. As a complement to Aurora’s existing focus on the use of microwave energy in methane pyrolysis, this project will involve a novel approach – utilizing RF energy from Acceleware’s Clean Tech Inverter (CTI) to heat Aurora’s unique pyrolysis reactor. The intent of the project is to uncover even greater efficiency that might be realized over Aurora’s proven microwave-based reactor due to the extremely high energy conversion efficiency of the CTI and its ability to quickly and cost effectively scale up to 10 MW power levels.
“We are excited to begin working with Aurora on this application – we believe that our RF innovation could play a key role in a low cost, distributed, and scalable zero emissions hydrogen production process,” said Geoff Clark, Chief Executive Officer of Acceleware. “Adding to our current RF XL heavy oil pilot, this project will further develop our core area of expertise – decarbonizing industrial heating applications by replacing combustion with clean electricity-powered RF energy.”
The aim of the project is to further Aurora’s research and development for the creation of an extremely cost effective method to convert natural gas into H2 at point of use or in a distributed manner as an alternative to large scale and high capital cost centralized hubs.
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