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Posted: May 06, 2014
Widespread hydrogen fueling infrastructure goal of H2FIRST project
(Nanowerk News) As hydrogen fuel cell vehicles continue to roll out in increasing numbers, the infrastructure for fueling them must expand as well. To this end, a new project launched by the Energy Department and led by Sandia National Laboratories and the National Renewable Energy Laboratory (NREL) will work in support of H2USA, the public private partnership introduced in 2013 by the Energy Department and industry stakeholders to address the challenge of hydrogen infrastructure.
Established by the Energy Department’s Fuel Cell Technologies Office in the Office of Energy Efficiency and Renewable Energy, the Hydrogen Fueling Infrastructure Research and Station Technology (H2FIRST) project will draw on existing and emerging core capabilities at the national labs and aim to reduce the cost and time of new fueling station construction and improve the stations’ availability and reliability.
By focusing on these aspects of the hydrogen fueling infrastructure, the effort hopes to accelerate and support the widespread deployment of hydrogen fuel cell electric vehicles. Watch this new Energy 101 video to learn more about how fuel cell electric vehicles work:
The vehicles themselves continue to proliferate, as evidenced by Toyota’s recent announcement that it will begin selling its Fuel Cell Vehicle in 2015. Last year, General Motors and Honda announced plans to jointly develop hydrogen fuel cell cars, and Hyundai will lease its Tucson Fuel Cell hydrogen-powered vehicle in California this spring.
“The success of hydrogen fuel cell electric vehicles largely depends on more stations being available, including in neighborhoods and at work, so drivers can easily refuel,” said Daniel Dedrick, hydrogen program manager at Sandia. “With H2FIRST, we’re definitely on the road to making that happen more quickly.”
Keith Wipke, manager of NREL’s fuel cell and hydrogen technologies program, said, “We’re excited to be able to work with industry members who are on the ground installing stations right now and finding out what’s working and what needs improvement. H2FIRST aims to address cross-cutting, urgent challenges related to station performance and availability.”
The partners include several agencies from the state of California, widely regarded as the nation’s epicenter of zero-emission vehicles.
“This new project brings important federal know-how and resources to accelerate improvements in refueling infrastructure that support the commercial market launch of hydrogen fuel cell vehicles,” said Air Resources Board Chairman Mary D. Nichols. “California is committed to deploying at least 100 hydrogen refueling stations in the next decade, and the H2FIRST effort is a big step toward the development and deployment of a broader, consumer-friendly infrastructure for us and the rest of the United States. We are excited to be joined by such prestigious partners in this effort.”
Objectives focus on better, less expensive hydrogen fueling stations
H2FIRST’s technical goal is to develop and apply physical testing, numerical simulation and technology validation to help create low-cost, high-performance materials, components and station architectures. H2FIRST also will collect and distribute data supporting industry’s efforts to reduce the costs of integrated fueling systems and networks.
Specific H2FIRST objectives include:
development of improved hydrogen fueling station design and requirements, including a broader technical understanding of what is needed to achieve a national hydrogen fueling infrastructure.
acceleration of hydrogen fueling station deployment, including the identification of a flexible set of technical experts and facilities to respond quickly to challenges that arise as new hydrogen stations are built.
reduction of hydrogen fueling system costs and improvement of system availability, safety and reliability through inventive materials and novel designs.
more innovative, efficient hydrogen fueling stations, making them competitive with conventional gasoline stations and more consumer-friendly.
integration of renewable hydrogen and the power grid through development, optimization and validation of technologies that enable distributed generation of renewable hydrogen in a broader energy ecosystem.
Partners bring breadth of national lab research, experience and capabilities
Sandia’s facilities will develop and test innovative infrastructure technologies to accelerate market readiness, drawing upon Sandia’s broader hydrogen program, which includes research on storage, delivery, production, systems analysis and safety, codes and standards.
NREL will use its performance-testing, analysis, and safety, codes and standards expertise to study renewable hydrogen generation and infrastructure systems and components. At NREL’s new Energy Systems Integration Facility, capabilities such as a hose reliability testing robot and construction of additional refueling hardware will support H2FIRST’s hydrogen infrastructure research needs.
Moving forward with hydrogen fuel stations in the near term
The H2FIRST project is initially expected to identify opportunities that offer “high probability for success” for timely advancement of near-term fueling stations. The project also will work to identify and develop common laboratory capabilities that can serve many purposes for advancing hydrogen fueling technologies.
The H2FIRST project is expected to eventually include companies and organizations in the automotive, energy and industrial gas sectors, fuel cell manufacturers, station component providers, state and regional government agencies and research institutions.
“We think H2FIRST can help improve the path for hydrogen fuel cell vehicles by creating opportunities for private industry to pool their resources to address infrastructure needs,” said Sandia’s Dedrick. “We are also excited to forge strong relationships with state agencies in California.”