2016 Annual Progress Report

IV. Hydrogen Storage

This section of the 2016 Annual Progress Report for the DOE Hydrogen and Fuel Cells Program focuses on hydrogen storage.

Hydrogen Storage Program Overview, Ned Stetson, U.S. Department of Energy

A. Analysis

  1. System Analysis of Physical and Materials-Based Hydrogen Storage, Rajesh Ahluwalia, Argonne National Laboratory
  2. Hydrogen Storage Cost Analysis, Brian James, Strategic Analysis, Inc.

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B. System Engineering

  1. Hydrogen Storage Engineering Center of Excellence, Don Anton, Savannah River National Laboratory
  2. Hydrogen Storage System Modeling: Public Access, Maintenance, and Enhancements, David Tamburello, Savannah River National Laboratory, Ted Motyka, Savannah River National Laboratory

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C. Advanced Materials

  1. HyMARC: A Consortium for Advancing Solid-State Hydrogen Storage Materials, Mark Allendorf, Sandia National Laboratories
  2. Hydrogen Storage Materials Advanced Research Consortium: Sandia Effort , Mark Allendorf, Sandia National Laboratories
  3. HyMARC: Hydrogen Storage Materials Advanced Research Consortium (LLNL Effort), Brandon Wood, Lawrence Livermore National Laboratory
  4. HyMARC: A Consortium for Advancing Solid-State Hydrogen Storage Materials, Jeffrey Urban, Lawrence Berkeley National Laboratory
  5. Improving the Kinetics and Thermodynamics of Mg(BH4)2 for Hydrogen Storage, Brandon Wood, Lawrence Livermore National Laboratory
  6. High-Capacity Hydrogen Storage Systems via Mechanochemistry, Vitalij Pecharsky, Ames Laboratory
  7. Hydrogen Storage Characterization and Optimization Research Efforts, Thomas Gennett, National Renewable Energy Laboratory
  8. Design and Synthesis of Materials with High Capacities for Hydrogen Physisorption, Brent Fultz, California Institute of Technology
  9. High-Capacity and Low-Cost Hydrogen-Storage Sorbents for Automotive Applications, Hong-Cai Joe Zhou, Texas A&M University
  10. Hydrogen Adsorbents with High Volumetric Density: New Materials and System Projections, Don Siegel, University of Michigan
  11. Electrochemical Reversible Formation of α-Alane, Ragaiy Zidan, Savannah River National Laboratory
  12. Low-Cost α-Alane for Hydrogen Storage, Richard Martin, Ardica Technologies

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D. Advanced Tanks

  1. Enhanced Materials and Design Parameters for Reducing the Cost of Hydrogen Storage Tanks, David Gotthold, Pacific Northwest National Laboratory
  2. Thermomechanical Cycling of Thin Liner High-Fiber Fraction Cryogenic Pressure Vessels Rapidly Refueled by LH2 Pump to 700 bar, Salvador Aceves, Lawrence Livermore National Laboratory
  3. Conformable Hydrogen Storage Pressure Vessel Project, Erik Bigelow, Center for Transportation and the Environment
  4. Next Generation Hydrogen Storage Vessels Enabled by Carbon Fiber Infusion with a Low Viscosity, High Toughness System, Brian Edgecombe, Materia
  5. Optimizing the Cost and Performance of Composite Cylinders for Hydrogen Storage Using a Graded Construction, Andrea Haight, Composite Technology Development
  6. Achieving Hydrogen Storage Goals through High-Strength Fiber Glass, Hong Li, PPG Industries
  7. Melt Processable PAN Precursor for High-Strength, Low-Cost Carbon Fibers (Phase II), Felix Paulauskas, Oak Ridge National Laboratory
  8. Innovative Development, Selection and Testing to Reduce Cost and Weight of Materials for BOP Components, Jon Zimmerman, Sandia National Laboratories

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