We’re pleased to announce we’ve formalised a partnership with key companies and institutions to develop our SiPHyR™ (SiBrick-integrated Pyrolytic Hydrogen Reactor) technology.
The SiPHyR project, which is designed to produce hydrogen and solid carbon using methane pyrolysis, has received a significant boost to its development from Woodside Energy Technologies (Woodside).
A $1 million contribution will be made by Woodside consisting of direct funding and the provision of subject matter expertise.
This investment underscores the commitment of all parties involved in advancing lower-carbon energy solutions.
1414 Degrees’ Executive Chairman, Dr Kevin Moriarty, said “the signing of the Agreement is a critical milestone. The contribution from Woodside will support the integration of our silicon thermal energy storage with a new fluid reactor technology to potentially reduce hydrogen production costs and emissions.”
SiPHyR integrates licensed designs from the University of Adelaide (UoA) with 1414 Degrees’ silicon based thermal energy storage technology, SiBrick®, to enable continuous hydrogen production from intermittent renewable electricity.
The technology team includes experts from UoA, Woodside, Vulcan Steel, and the Royal Melbourne Institute of Technology, supported by a $2.5 million Australian Government grant under the Cooperative Research Centres Project.
The project aims to advance SiPHyR from its current Technology Readiness Level (TRL) of 2 to TRL 5 within three years. A critical deliverable of this project is a detailed plan for a scaled demonstration at TRL 7 within two years of this project’s completion, ensuring the technology’s readiness for commercialisation.
Read the full announcement to the ASX for more details on how this technology will produce lower emissions hydrogen at a cost comparable to current emissions-intensive methods.