2009 Annual Progress Report

V. Fuel Cells

This section of the 2009 Progress Report for the DOE Hydrogen Program focuses on fuel cells.

Fuel Cells Program Element Introduction, Dimitrios Papageorgopoulos, U.S. Department of Energy

A. Analysis/Characterization

Fuel Cell Systems Analysis, Rajesh Ahluwalia, Argonne National Laboratory
Mass Production Cost Estimation for Direct H2 PEM Fuel Cell System for Automotive Applications, Brian James, Directed Technologies, Inc.
Cost Analyses of Fuel Cell Stack/Systems, Jayanti Sinha , TIAX LLC
Fuel Cell Testing at Argonne National Laboratory, Ira Bloom, Argonne National Laboratory
Component Benchmarking Subtask Reported: USFCC Durability Protocol Development and Technically-Assisted Industrial and University Partners, Tommy Rockward, Los Alamos National Laboratory
Applied Science for Electrode Cost, Performance, and Durability, Christina Johnston, Los Alamos National Laboratory
Microstructural Characterization Of PEM Fuel Cell MEAs , Karren More, Oak Ridge National Laboratory
Neutron Imaging Study of the Water Transport in Operating Fuel Cells , Muhammad Arif, National Institute of Standards and Technology

B. Water Transport Studies

Water Transport Exploratory Studies, Rod Borup, Los Alamos National Laboratory
Water Transport in PEM Fuel Cells: Advanced Modeling, Material Selection, Testing, and Design Optimization, Vernon Cole, CFD Research Corporation
Visualization of Fuel Cell Water Transport and Performance Characterization under Freezing Conditions, Satish Kandlikar, Rochester Institute of Technology

C. Impurities

Effects of Fuel and Air Impurities on PEM Fuel Cell Performance, Fernando Garzon, Los Alamos National Laboratory
Fundamental Effects of Impurities on Fuel Cell Performance and Durability, James Goodwin, Clemson University
Effects of Impurities on Fuel Cell Performance and Durability, Trent Molter, University of Connecticut

D. Membranes

Lead Research and Development Activity for DOE's High Temperature, Low Relative Humidity Membrane Program, James Fenton, University of Central Florida
Dimensionally Stable High Performance Membrane, Cortney Mittelsteadt, Giner Electrochemical Systems, LLC
New Proton Conductive Composite Materials with Co-Continuous Phases Using Functionalized and Crosslinkable VDF/CTFE Fluoropolymers, Serguei Lvov, Pennsylvania State University
Poly(cyclohexadiene)-Base Polymer Electrolyte Membranes for Fuel Cell Applications, Jimmy Mays, University of Tennessee
High Temperature, Low Relative Humidity, Polymer-type Membranes Based on Disulfonated Poly(arylene ether) Block and Random Copolymers Optionally Incorporating Protonic Conducting Layered Water Insoluble Zirconium Fillers, James McGrath, Virginia Polytechnic Institute and State University
Protic Salt Polymer Membranes: High-Temperature Water-Free Proton-Conducting Membranes, Dominic Gervasio, Arizona State University
Fluoroalkylphosphonic-Acid-Based Proton Conductors, Stephen Creager, Clemson University
Poly(p-Phenylene Sulfonic Acids): PEMs with Frozen-In Free Volume, Morton Litt, Case Western Reserve University
NanoCapillary Network Proton Conducting Membranes for High Temperature Hydrogen/Air Fuel Cells, Peter Pintauro, Vanderbilt University
High Temperature Membrane with Humidification-Independent Cluster Structure, Ludwig Lipp, FuelCell Energy, Inc.
Novel Approaches to Immobilized Heteropoly Acid (HPA) Systems for High Temperature, Low Relative Humidity Polymer-Type Membranes, Andrew Herring, Colorado School of Mines
Improved, Low-Cost, Durable Fuel Cell Membranes, Chris Roger, Arkema Inc.
Membranes and MEAs for Dry, Hot Operating Conditions, Steven Hamrock, 3M Company
New Polyelectrolyte Materials for High Temperature Fuel Cells, John Kerr, Lawrence Berkeley National Laboratory
Development of Novel PEM Membrane and Multiphase CFD Modeling of PEM Fuel Cell, Joel Berry, Kettering University
Alternate Fuel Cell Membranes for Energy Independence, Kenneth Mauritz, University of Southern Mississippi

E. Catalysts/Supports

Advanced Cathode Catalysts and Supports for PEM Fuel Cells, Mark Debe, 3M Company
Highly Dispersed Alloy Catalyst for Durability, Vivek Murthi, UTC Power
Development of Alternative and Durable High Performance Cathode Supports for PEM Fuel Cells, Yong Wang, Pacific Northwest National Laboratory
Non-Platinum Bimetallic Cathode Electrocatalysts, Debbie Myers, Argonne National Laboratory
Advanced Cathode Catalysts, Piotr Zelenay, Los Alamos National Laboratory

F. Recycling

Platinum Group Metal Recycling Technology Development, Larry Shore, BASF Catalysts LLC

G. Bipolar Plates/Hardware

Nitrided Metallic Bipolar Plates, Michael Brady, Oak Ridge National Laboratory
Next Generation Bipolar Plates for Automotive PEM Fuel Cells, Orest Adrianowycz, GrafTech International Ltd.
Low-Cost Durable Seals for PEMFCs, Jason Parsons, UTC Power

H. Water Management

CIRRUS: Cell Ice Regulation and Removal Upon Start-Up, James Cross, Nuvera Fuel Cells, Inc.
Development of Thermal and Water Management Systems for PEM Fuel Cells, Zia Mirza, Honeywell Engineering & Technology

I. Distributed Energy

Development and Demonstration of a New-Generation High Efficiency 1-10 kW Stationary Fuel Cell System, Durai Swamy, Intelligent Energy
PEM Fuel Cell Powerplant Development and Verification, Eric Strayer, UTC Power
Intergovernmental Stationary Fuel Cell System Demonstration, Richard Chartrand, Plug Power Inc.
FC40 International Stationary Fuel Cell Demonstration, John Vogel, Plug Power Inc.
Development of a Low Cost 3-10kW Tubular SOFC Power System, Norman Bessette, Acumentrics Corporation
Renewable and Logistics Fuels for Fuel Cells at the Colorado School of Mines, Neal Sullivan, Colorado School of Mines
Low-Cost Co-Production of Hydrogen and Electricity, Fred Mitlitsky, Bloom Energy, Inc.
Development of a Novel Efficient Solid-Oxide Hybrid for Co-generation of Hydrogen and Electricity Using Nearby Resources for Local Applications, Greg Tao, Materials and Systems Research, Inc.
Biogas Fueled Solid Oxide Fuel Cell Stack, Praveen Cheekatamarla, Nanodynamics Energy
Development of kW Scale Coal-Based Solid Oxide Fuel Cell Technology, Steven Chuang, University of Akron
Extended Durability Testing of an External Fuel Processor for SOFC, Mark Perna, Rolls Royce Fuel Cell Systems Inc.

J. Auxiliary/Off-Road/Portable

Diesel-Fueled SOFC System for Class 7/Class 8 On-Highway Truck Auxiliary Power, Dan Norrick, Cummins Power Generation
Solid Oxide Fuel Cell Development for Auxiliary Power in Heavy Duty Vehicle Applications, Steven Shaffer, Delphi Corporation
Solid Acid Fuel Cell Stack for APU Applications, Hau Duong, Superprotonic, Inc.
Research & Development for Off-Road Fuel Cell Applications, Richard Lawrance, IdaTech, LLC
Direct Methanol Fuel Cell Prototype Demonstration for Consumer Electronics Applications, Chuck Carlstrom, MTI Micro Fuel Cells
Silicon-Based Solid Oxide Fuel Cell for Portable Consumer Electronics, Alan Ludwiszewski, Lilliputian Systems
Engineered Nanostructured MEA Technology for Low Temperature Fuel Cells, Yimin Zhu, Nanosys, Inc.

K. Cross-Cutting

Light-Weight, Low-Cost PEM Fuel Cell Stacks, Jesse Wainright, Case Western Reserve University
Fuel Cell Research at the University of South Carolina, John VanZee, University of South Carolina
Center for Fundamental and Applied Research in Nanostructured and Lightweight Materials, Michael Mullins, Michigan Technological University
Martin County Hydrogen Fuel Cell Development, Beth Rehbock, Microcell Corporation
Fuel Cell Balance of Plant Reliability Testbed, Vern Sproat, Stark State College of Technology
Hydrogen Fuel Cell Development in Columbia (SC), Kenneth Reifsnider, University of South Carolina