ProtonH2 has made the decision to move forward with Project Apollo, a groundbreaking initiative that will produce 500 tpd of low-carbon intensity (CI) H₂ at a cost of less than $1.00/kg, located in the Kerrobert area of Saskatchewan, Canada. This decision marks a significant milestone in ProtonH2's commitment to driving the H₂ economy and the delivery of innovative and sustainable energy solutions.

After an extensive evaluation process, ProtonH2 has selected Propak Systems Ltd. as the engineering, procurement and construction (EPC) partner for Project Apollo. Propak's proven expertise in delivering complex energy projects aligns perfectly with ProtonH2's vision for creating a world-class H₂ production facility. With the completion of the first phase of front-end engineering and design pre-(FEED), ProtonH2 is poised to move into the detailed design and execution phases of the project.

"Selecting Propak as our EPC partner and completing the pre-FEED phase are critical steps forward for Project Apollo," said Paul Sandhu, CEO of ProtonH2. "This project is not just about producing H₂; it's about setting new standards for cost efficiency and sustainability in the energy sector. We are excited to work with Propak to bring this vision to life and contribute significantly to the global H₂ economy."

"We are excited to be selected as ProtonH2's partner for the Apollo project," said Matt Drevenak, Managing Director of Energy Systems at Propak. "ProtonH2's new and unique technology combined with Propak's proven track record for providing full turnkey projects on time and on budget will contribute to the success of this project."

Project Apollo is designed to leverage ProtonH2's innovative technology, which utilizes end-of-life oil and gas assets to produce low-CI H₂. By repurposing existing infrastructure and optimizing onsite thermodynamics, ProtonH2 is able to achieve unprecedented cost efficiencies, making H₂ a viable and competitive energy source.

Construction of Project Apollo is scheduled to begin in the fourth quarter of 2024, with the first H₂ deliveries expected in the first half of 2025. Once operational, the facility will play a key role in meeting the growing demand for clean H₂, both domestically and internationally.