Skip to main content

Systems Integration

The technological advancements and lessons learned through research, development, and demonstration of hydrogen and fuel cell technologies must be integrated to work as a fully functional system. This is the focus of systems integration—understanding the complex interactions between components, systems costs, environmental impacts, societal impacts, and system trade-offs. Identifying and analyzing these interactions will enable evaluation of alternative concepts and pathways, and result in well-integrated and optimized hydrogen and fuel cell systems.

Led by the Office of Energy Efficiency and Renewable Energy, this activity supports the DOE Hydrogen and Fuel Cells Program through the following tasks and efforts:

  • Developing an integrated baseline, linking all the technical and programmatic aspects of the program
  • Providing independent systems analysis in support of program decision-making
  • Developing a Macro-System Model of the overall hydrogen infrastructure
  • Implementing configuration management/change control and risk management processes
  • Providing a framework for systematic and comprehensive review of R&D projects
  • Commissioning independent peer review panels for critical program milestones/decisions
Systems Integration includes production, fuel cells, tech validation, safety, codes and standards, education and storage.