2003 Annual Progress Report

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II. Distributed Production Technologies

A. Distributed Production Technologies

  1. Novel Catalytic Fuel Reforming, Patricia Irving, InnovaTek Inc. (PDF 207 KB)
  2. Engineering Development of Ceramic Membrane Reactor Systems for Converting Natural Gas to Hydrogen and Synthesis Gas for Liquid Transportation Fuels (ITM Syngas), Christopher M. Chen, Air Products and Chemicals, Inc. (PDF 223 KB)
  3. Integrated Ceramic Membrane System for Hydrogen Production, Joseph Schwartz, Praxair, Inc. (PDF 374 KB)
  4. Low Cost Hydrogen Production Platform, Timothy M. Aaron, Praxair Inc. (PDF 293 KB)
  5. Encapsulated Metal Hydride Separation Membrane Development, Kit Heung, Westinghouse Savannah River Technology Center (PDF 502 KB)
  6. Defect-Free Thin Film Membranes for H2 Separation and Isolation, Tina M. Nenoff, Sandia National Laboratories (PDF 2 MB)
  7. Autothermal Cyclic Reforming Based Hydrogen Generating and Dispensing System, Ravi Kumar, GE Global Research, General Electric Company (PDF 226 KB)
  8. Hydrogen Technical Analysis: Evaluation of Metal Hydride Slurries, Stephen Lasher, TIAX LLC (PDF 218 KB)
  9. Water-Gas Shift Membrane Reactor Studies, Richard Killmeyer, National Energy Technology Laboratory (PDF 207 KB)
  10. Integrating a Hydrogen Energy Station into a Federal Building, Stefan Unnasch, TIAX LLC (PDF 136 KB)
  11. Hydrogen from Renewable Energy Sources: Pathway to 10 Quads for Transportation Uses in 2030 to 2050, Duane B. Myer Directed Technologies, Inc. (PDF 187 KB)

B. Production from Biomass

  1. Biohydrogen Production from Renewable Organic Wastes, Shihwu Sung, Dept. of Civil and Construction Engineering, Iowa State University (PDF 206 KB)
  2. Biological Water Gas Shift Development, Edward J. Wolfrum, National Renewable Energy Laboratory (PDF 185 KB)
  3. Supercritical Water Partial Oxidation, Michael H. Spritzer, General Atomics (PDF 217 KB)
  4. Biomass-Derived Hydrogen from a Thermally Ballasted Gasifier, Robert C. Brown, Iowa State University (PDF 183 KB)
  5. Techno-Economic Analysis of Hydrogen Production by Gasification of Biomass, David A. Bowen, Gas Technology Institute (PDF 202 KB)
  6. Hydrogen from Biomass - Catalytic Reforming of Pyrolysis Vapors, Robert Evans, National Renewable Energy Laboratory (PDF 141 KB)
  7. Production of Hydrogen from Post-Consumer Residues, Stefan Czernik, National Renewable Energy Laboratory (PDF 156 KB)
  8. Fluidizable Catalysts for Hydrogen Production from Biomass Pyrolysis/Steam Reforming, Kimberly A. Magrini-Bair, National Renewable Energy Laboratory (PDF 198 KB)
  9. Hydrogen from Biomass for Urban Transportation, Y. D. Yeboah, Clark Atlanta University (PDF 292 KB)
  10. Reformer Model Development for Hydrogen Production, Josette Bellan, Jet Propulsion Laboratory (PDF 327 KB)

C. Photolysis

  1. Maximizing Photosynthetic Efficiencies and Hydrogen Production in Microalgal Cultures, Tasios Melis, University of California, Berkeley (PDF 240 KB)
  2. Algal H2-Production Systems: Creation of Designer Alga for Efficient and Robust Production of H2, James W. Lee, Oak Ridge National Laboratory (PDF 145 KB)
  3. Algal Systems for Hydrogen Photoproduction, Maria L. Ghirardi, National Renewable Energy Laboratory (PDF 261 KB)
  4. Photoelectrochemical Systems for H2 Production, John A. Turner, National Renewable Energy Laboratory (PDF 172 KB)
  5. Photoelectrochemical Hydrogen Production, Eric L. Miller, Hawaii Natural Energy Institute, University of Hawaii at Manoa (PDF 316 KB)
  6. Photoelectrochemical Hydrogen Production Using New Combinatorial Chemistry Derived Materials, Eric W. McFarland, University of California, Santa Barbara (PDF 316 KB)
  7. Discovery of Photocatalysts for Hydrogen Production, D. Brent MacQueen, SRI International (PDF 208 KB)

D. Electrolysis

  1. Low Cost, High Efficiency Reversible Fuel Cell Systems, Christopher Milliken, Technology Management, Inc. (PDF 179 KB)
  2. High-Efficiency Steam Electrolyzer, Andrew L. Vance, Lawrence Livermore National Laboratory (PDF 398 KB)
  3. High-Temperature Solid Oxide Electrolyser System, J. Stephen Herring, Idaho National Engineering and Environmental Laboratory (PDF 256 KB)

E. High-Temperature Thermochemical Processes

  1. Thermocatalytic CO2-free Production of Hydrogen from Hydrocarbon Fuels, Nazim Muradov, Florida Solar Energy Center (PDF 251 KB)
  2. Analysis of Solar Thermochemical Water-Splitting Cycles for Hydrogen Production, Ali T-Raissi, Florida Solar Energy Center (PDF 230 KB)

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