Nikola and KeyState Natural Gas Synthesis team up to develop Pennsylvania hydrogen value chain
Nikola Corporation and KeyState Natural Gas Synthesis are working together to create Pennsylvania’s first low-carbon hydrogen production value chain, which includes full integration of commercial carbon capture and storage.
The project is intended to represent the transition to lower emissions transportation, chemicals and manufacturing. The parties are working towards a definitive agreement to expand the hydrogen supply for Nikola’s zero-emissions heavy-duty fuel cell electric vehicles (FCEVs).
Carey Mendes, Nikola President, Energy, said its participation in the project will allow it to secure sufficient volumes of hydrogen to underpin and accelerate the adoption of zero-emission trucks by unlocking new customer demand and enabling key investments in downstream hydrogen refuelling infrastructure in the Mid-Atlantic region.
“This will be key to our supply strategy and will help develop our refueling network at scale,” he said. “Additionally, the low carbon, clean hydrogen will allow us to maximize value under the Inflation Reduction Act and future downstream fuel and dispensing incentive programs.”
KeyState plans to supply Nikola – which recently completed the acquisition of Romeo Power – with up to 100 tones per day of low carbon hydrogen, which can supply fuel for up to 2.500 Nikola Tre FCEVs and will displace over 51.000.000 gallons of fossil diesel fuel per annum consumed.
Once operational in 2026. the 7.000 plus-acre KeyState site is expected to have the capacity to store the carbon dioxide (CO2) associated with the hydrogen production and will provide strategic reach and access to premium Mid-Atlantic FCEV markets. KeyState will also produce ammonia and urea for industrial and transportation markets, in addition to Nikola’s hydrogen mobility demand.
The KeyState project is expected to integrate carbon capture from autothermal reforming with onsite geological carbon sequestration and onsite close-system sourced natural gas feedstock, all while generating zero-carbon electricity. A true carbon circle will be completed, with the separation of 99% of carbon from the hydrogen in methane and returning this CO2 to deep underground onsite geological storage.
In addition to working toward the hydrogen supply agreement, the parties are working together to develop a liquefaction solution to support the economic and efficient distribution of hydrogen from the project to Nikola’s planned refueling network under development.
The parties also plan to support an application as a principal project of the DOE Hydrogen Hub Program representing the full-use hydrogen ecosystem from production through demand.