December 24, 2020 at 6:32 am

The project will demonstrate HTSE using heat and electricity from one of Xcel Energy’s nuclear plants

By Sandesh Ilhe

Minneapolis-based Xcel Energy will work with Idaho National Laboratory to demonstrate a system that uses a nuclear plant’s steam and electricity to split water. (Earlier post.) The resulting hydrogen will initially be used at the power plant, but it could eventually be sold to other industries.

The new project is the first to pair a commercial electricity generator with high-temperature steam electrolysis (HTSE) technology. It builds on a project launched last year to demonstrate how hydrogen production facilities could be installed at operating nuclear power plants.

This is a game-changer for both nuclear energy and carbon-free hydrogen production for numerous industries. It offers a view of the energy structures of the future, which will integrate systems to maximize energy use, generator profitability and grid reliability all while minimizing carbon emissions.

—Richard Boardman, national technical lead for the DOE Light Water Reactor Sustainability Program’s Flexible Plant Operations and Generation Pathway

Industrial-grade hydrogen is commonly produced today by stripping it from natural gas molecules, emitting carbon monoxide in the process. Since nuclear power plants do not emit carbon or other air pollutants, hydrogen made by splitting water at nuclear plants can help lower the carbon footprint of industrial hydrogen customers.

The project will demonstrate HTSE using heat and electricity from one of Xcel Energy’s nuclear plants, likely the Prairie Island Nuclear Generating Station. Steam electrolysis can be a very efficient process in specific applications, and it relies on high temperature to split water and produce hydrogen.

Prairie_Island-print-886320lr

Prairie Island


HTSE technology is a natural fit at nuclear power plants, where high-quality steam and electricity are both accessible. Xcel Energy also has a large amount of wind in its energy generation portfolio, which offers an opportunity to demonstrate how a nuclear plant’s electricity could be used to make hydrogen when wind energy satisfies grid demand.

A recent analysis under DOE’s H2@Scale initiative, led by the Hydrogen and Fuel Cell Technologies Office, estimated that hydrogen produced by HTSE at a nuclear plant could be cost competitive in today’s market. The report was published by the National Renewable Energy Laboratory.

Today, a number of nuclear power plants could produce cost-competitive hydrogen—and, with additional electrolyzer R&D and more installations, many more nuclear plants could in the future.

—Mark Ruth, a group manager with NREL’s Strategic Energy Analysis Center and lead author of the report

Commercial hydrogen production via low-temperature electrolysis will be demonstrated by a previously awarded project, which launched in September 2019. Led by Energy Harbor’s Davis-Besse Nuclear Plant near Toledo, Ohio, the two-year project will demonstrate a 1- to 3-MWe low-temperature electrolysis unit to produce commercial quantities of hydrogen. The third utility participating in the project, Arizona Public Service (APS), which operates the Palo Verde Generating Station, is also evaluating the integration of nuclear energy with hydrogen production.



Sandesh Ilhe

With an Engineers degree in Advanced Database Management and Information Security, Sandesh brings the deep understanding of the digital world to the table. His articles reflect the challenges and the complexities that come along with every disruption in the industry. He carries over six years of experience on working with websites and ensuring that the right article reaches the right reader.

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