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Public-private partnership to develop renewable hydrogen facility in Oregon

In the United States (US), a team of Pacific Northwest public and private organizations have signed a Memorandum of Understanding (MoU) to explore the development of what would be one of the largest renewable hydrogen production facilities in North America. The partners in the hydrogen production and carbon-reduction initiative include the Eugene Water & Electric Board (EWEB), NW Natural, and the Bonneville Environmental Foundation.

Hydrogen

In the United States (US), a team of Pacific Northwest public and private organizations have signed a Memorandum of Understanding (MoU) to explore the development of what would be one of the largest renewable hydrogen production facilities in North America. The partners in the hydrogen production and carbon-reduction initiative include the Eugene Water & Electric Board (EWEB), NW Natural, and the Bonneville Environmental Foundation.

The hydrogen production facility will demonstrate how renewable and low-carbon electricity can be transformed into “green” hydrogen, through “power-to-gas” (PtG) and used to decarbonize the region’s space heating and transportation sectors. Plans include the potential for a facility in Eugene that could range in size from 2 MW up to 10 MW.

We’re very excited to be part of this unique and innovative partnership that looks at energy issues holistically and includes organizations across the energy spectrum with complementary interests. This is a good example of another step we can take to explore and develop sustainable and practical climate solutions for our region, said Frank Lawson, General Manager at EWEB.

Power-to-gas produces hydrogen from water by running electricity through an “electrolyzer.” The device separates water (H2O) into hydrogen and oxygen that are then captured for storage and use. Using electricity sourced from hydro, wind, solar, or other low-carbon sources, this process creates a renewable form of hydrogen (green hydrogen).

Today, most hydrogen for industrial uses is made using fossil fuels through the steam reformation process. This project will instead look to renewable zero-emissions production sources.

Green hydrogen a key clean energy carrier

Green hydrogen will be critical to the long-term decarbonization of the world’s energy systems, including transportation, heating, manufacturing, and other processes. It’s the most versatile energy source available.

The project team also recognizes these opportunities in other sectors, like buses using fuel-cells, and are looking for additional partners to work with on the potential development.

Hydrogen can be blended with natural gas in small amounts (less than 10 percent) for delivery and used in existing appliances and equipment. It can also be combined with carbon dioxide (CO2) to make a form of renewable natural gas (RNG) through methanation that can then be stored or delivered along with or in place of conventional natural gas supplies.

By combining new technologies with renewables developed for the pipeline network and lower use through energy efficiency, we see no technical barrier to a carbon-neutral natural gas system. It’s a strategy already emerging in Europe, and it’s our vision forward, said David H. Anderson, President, and CEO of NW Natural, a subsidiary of Portland, Oregon (OR) based gas distribution company Northwest Natural Holding Company.

Utilize excess renewable power

The group will look to recreate existing models of successful power-to-gas installations, which can be found in Europe, South Korea, and elsewhere. It will also explore the utilization of some of the hydrogen directly in fuel cells for backup electricity generation.

In addition to helping the region reach its carbon-reduction goals with this project, fuel cell technology would allow us to keep our backup systems operating for several weeks, well beyond the range of diesel generators in the event of a regional emergency that affected the electric grid. These fuel cells can be used to both ‘black start’ power plants following a major disruption and provide stability for local power grids, said Frank Lawson.

With the growth of wind and solar generation, on top of existing hydroelectric generation, there is periodically an abundance of renewable electricity available in the Pacific Northwest throughout the year. By converting some of this excess electricity into hydrogen through the power-to-gas method, utilities can store the hydrogen for months or even years.

Now that wind and solar are the cheapest sources of new electricity, renewably produced hydrogen can couple a clean electricity system to other hard-to-decarbonize sectors such as transportation, fertilizer production, and steel refining, said Evan Ramsey, Senior Director of the Renewable Energy Group at Bonneville Environmental Foundation.

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