ORPC, a global leader in renewable power systems that generate electricity from free-flowing river and tidal currents, has signed a contract with Shell Technology – Marine Renewable Program for the purchase of two next-generation Modular RivGen devices. The devices will be deployed as a technology demonstration at a Shell facility on the Lower Mississippi River in 2024 following detailed site characterisation work this fall.
This next step in the collaboration between ORPC and Shell Technology – Marine Renewable Program advances the resource characterisation work undertaken in May 2023, where, in partnership with Louisiana State University, ORPC assessed three potential sites in the Lower Mississippi River, to showcase the capacity of ORPC’s Modular RivGen Power System to provide renewable, predictable electricity on a kilowatt scale. ORPC is in the process of more detailed feasibility and resource assessments, geospatial analysis and permitting and engineering work to fine-tune an installation plan.
The Modular RivGen device utilises the same patented cross-flow turbine technology to harness river currents as ORPC’s commercial RivGen® Power System and is designed to power existing infrastructure at lower velocity sites. A two-unit array was successfully deployed in May 2023 in partnership with Our Katahdin at its One North facility on Millinocket Stream in Millinocket, Maine. Funded in part by the U.S. Department of Energy’s Water Power Technologies Office, the project is featured in a U.S. Department of Energy-produced video highlighting the Modular RivGen System’s potential to provide power to EV charging stations and critical infrastructure.
“We are very excited to be working with Shell Technology – Marine Renewable Program to build ORPC’s next generation Modular RivGen technology to pilot a new use case after a successful run of our first units here in Maine,” ORPC CEO Stuart Davies said. “We are very appreciative of the opportunity to demonstrate the adaptability, ease of integration, and variety of use cases for ORPC’s power systems.”
