Ohmium International, Inc., a green hydrogen company that designs, manufactures, and deploys Proton Exchange Membrane (PEM) Electrolyzers, has finalized an agreement with NovoHydrogen, a leading renewable hydrogen project developer, to provide its PEM electrolyzers.
The electrolyzers will be used to provide 120MW of green hydrogen capacity to an Independent Power Producer, to be used as a zero-carbon replacement fuel for a portion of the gas usage at their peaking power plant in New Jersey. Ohmium‘s unique interlocking modular PEM electrolyzers provide a safer, modular, flexible, easy to install and maintain alternative to customized electrolyzers.
“We’re thrilled to work with NovoHydrogen on this groundbreaking project that demonstrates the power and potential of green hydrogen. The world is moving away from fossil fuels and there is significant infrastructure that can be transitioned to green hydrogen use—from pipelines to power generation,” said Arne Ballantine, CEO of Ohmium International. “The team at NovoHydrogen is great in the sector and is the perfect collaborator to bring this project to completion.”
“Green hydrogen offers a tremendous opportunity to utilize current gas-powered energy generating assets to provide 100% 24/7 dispatchable clean power. We are tremendously excited to work on this innovative project to show what can be done,” said Matt McMonagle, NovoHydrogen’s CEO. “Ohmium’s leading edge, modular, cost-effective PEM electrolyzers provide us with the perfect scalable solution for green hydrogen applications. We can expand capacity over time as the projects progress.”
Ohmium manufactures standardized interlocking modular PEM electrolyzers that produce pressurized high-purity hydrogen. Individual electrolyzers can be stacked to significantly reduce installation and maintenance costs while enabling unlimited configurations of deployment sizes. Ohmium’s proprietary electrolyzer stack technology can sustain a differential pressure across the membrane without compromise, which enhances cost-effective operation.