Ohmium International and InSolare Energy have announced a strategic partnership to develop a 4 MW green hydrogen project for NLC India Limited at Neyveli in Tamil Nadu.
The project is expected to produce up to 700 metric tonnes of green hydrogen annually and will support applications in power generation, industrial operations and clean mobility solutions. The initiative is aimed at supporting India’s clean energy transition and long-term carbon neutrality goals, Chemical Industry Digest reported.
The upcoming facility is designed to supply green hydrogen for multiple sectors, including industrial energy needs and transportation. With India increasing investments in renewable energy and hydrogen infrastructure, the project is expected to strengthen NLC India’s role in the country’s developing hydrogen economy.
Under the collaboration, Ohmium International will provide its Proton Exchange Membrane (PEM) electrolyzer technology and manufacturing support to enable efficient hydrogen production.
Dr. Hemanshu Bhatt said Ohmium’s India-based manufacturing capabilities and modular PEM technology matched the project’s focus on localised green hydrogen production. He added that the company’s research, testing and local service support made it a suitable technology partner for the project.
InSolare Energy will handle engineering, procurement and construction work while also contributing its experience in utility-scale solar and hybrid renewable energy systems.
Dr. Markus Tacke said InSolare’s EPC expertise and experience in green hydrogen projects complement Ohmium’s electrolyzer platform and would help deliver an integrated green hydrogen solution for NLC India.
The companies said the partnership aims to create a scalable green hydrogen model while supporting the development of domestic clean energy infrastructure and reducing dependence on fossil fuels.
The project is expected to become an important step in strengthening India’s growing green hydrogen ecosystem as investments in renewable energy and hydrogen technologies continue to rise.
