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August 2009
This article was originally published in
Journal of Fuel Cell Science and Technology
ISSN 1550-624X
EISSN 1551-6989
In this Issue
Research Papers
Experimental Study on Performance of a Banded Structure Membrane Fuel Cell
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031001.
doi: https://doi.org/10.1115/1.3005385
Topics:
Anodes
,
Floods
,
Fuel cells
,
Hydrogen
,
Membranes
,
Oxygen
,
Temperature
,
Temperature distribution
,
Proton exchange membrane fuel cells
,
Water
A Numerical Investigation Into the Interaction Between Current Flow and Fuel Consumption in a Segmented-in-Series Tubular SOFC
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031002.
doi: https://doi.org/10.1115/1.3005386
Topics:
Current density
,
Electrolytes
,
Flow (Dynamics)
,
Fuels
,
Solid oxide fuel cells
,
Fuel consumption
Design and Testing of a Unitized Regenerative Fuel Cell
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031003.
doi: https://doi.org/10.1115/1.3005575
Topics:
Catalysts
,
Design
,
Electrolysis
,
Fuel cells
,
Gas diffusion layers
,
Hydrogen
,
Oxygen
,
Water
,
Membranes
,
Electrodes
Electrospun Nafion Nanofiber for Proton Exchange Membrane Fuel Cell Application
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031004.
doi: https://doi.org/10.1115/1.3005577
Topics:
Electrospinning
,
Nanofibers
,
Proton exchange membrane fuel cells
,
Polymers
,
Fibers
,
Electrodes
,
Ethanol
Investigation of Elastomer Graphite Composite Material for Proton Exchange Membrane Fuel Cell Bipolar Plate
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031005.
doi: https://doi.org/10.1115/1.3005580
Use of Optimal Controls to Mitigate Competing Performance Objectives in a Polymer Electrolyte Membrane Fuel Cell System
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031006.
doi: https://doi.org/10.1115/1.3005583
Two-Phase Flow Maldistribution and Mitigation in Polymer Electrolyte Fuel Cells
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031007.
doi: https://doi.org/10.1115/1.2971124
Topics:
Electrolytes
,
Flow (Dynamics)
,
Fuel cells
,
Gas diffusion layers
,
Polymers
,
Two-phase flow
,
Water
,
Design
,
Channel flow
,
Floods
Hybrid Simulation Facility Based on Commercial 100 kWe Micro Gas Turbine
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031008.
doi: https://doi.org/10.1115/1.3006200
Topics:
Compressors
,
Flow (Dynamics)
,
Fuel cells
,
Machinery
,
Micro gas turbines
,
Pipes
,
Pressure
,
Solid oxide fuel cells
,
Stress
,
Valves
Fuel Cells as an Alternative to Cold Ironing
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031009.
doi: https://doi.org/10.1115/1.3006305
Topics:
Cold ironing
,
Exhaust systems
,
Fuel cells
,
Fuels
,
Heat
,
Heat recovery steam generators
,
Solid oxide fuel cells
,
Steam
,
Water
,
Emissions
Cathode Properties of Composite Material for Intermediate Temperature-Operating Solid Oxide Fuel Cell
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031010.
doi: https://doi.org/10.1115/1.3006308
Topics:
Composite materials
,
Solid oxide fuel cells
,
Temperature
,
Thermal expansion
,
Electrolytes
,
Electrodes
Experimental Study of Air-Water Interaction in Presence of Powdered Wax Inside Simulated Gas Distribution Channel of a Proton Exchange Membrane Fuel Cell
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031011.
doi: https://doi.org/10.1115/1.3006352
Topics:
Drops
,
Flow (Dynamics)
,
Proton exchange membrane fuel cells
,
Slug flows
,
Water
Joining of Metallic Cap and Anode-Supported Tubular Solid Oxide Fuel Cell by Induction Brazing Process
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031012.
doi: https://doi.org/10.1115/1.3006344
Oxidation Behavior of Various Metallic Alloys for Solid Oxide Fuel Cell Interconnect
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031013.
doi: https://doi.org/10.1115/1.3007430
Topics:
Alloys
,
Oxidation
,
Solid oxide fuel cells
,
Iron alloys
On the Use of Pressure-Loaded Blister Tests to Characterize the Strength and Durability of Proton Exchange Membranes
David A. Dillard, Yongqiang Li, Jacob R. Grohs, Scott W. Case, Michael W. Ellis, Yeh-Hung Lai, Michael K. Budinski, Craig S. Gittleman
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031014.
doi: https://doi.org/10.1115/1.3007431
Topics:
Creep
,
Durability
,
Failure
,
Leakage
,
Membranes
,
Pressure
,
Proton exchange membranes
,
Rupture
,
Stress
,
Testing
System Architectures for Solid Oxide Fuel Cell-Based Auxiliary Power Units in Future Commercial Aircraft Applications
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031015.
doi: https://doi.org/10.1115/1.3008037
Topics:
Aircraft
,
Fuels
,
Solid oxide fuel cells
,
System architecture
Studying the Water Transport in a Proton Exchange Membrane Fuel Cell by Neutron Radiography and Relative Humidity Sensors
J. Fuel Cell Sci. Technol. August 2009, 6(3): 031016.
doi: https://doi.org/10.1115/1.3006312
Technical Briefs
Innovative Design of an Air-Breathing Proton Exchange Membrane Fuel Cell With a Piezoelectric Device
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034501.
doi: https://doi.org/10.1115/1.3005581
Topics:
Proton exchange membrane fuel cells
,
Design
Design, Fabrication, and Performance Analysis of a Passive Micro-PEM-Fuel-Cell Stack
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034502.
doi: https://doi.org/10.1115/1.3006343
Polarization Resistances of (, Nd, Sm, and Gd , 0.3, 0.5, 0.7, and 1) as Cathode Materials for Intermediate Temperature-operating Solid Oxide Fuel Cells
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034503.
doi: https://doi.org/10.1115/1.3006310
A Solar-Hydrogen Fuel-Cell Home and Research Platform
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034504.
doi: https://doi.org/10.1115/1.3006309
Topics:
Fuel cells
,
Hydrogen
,
Solar energy
Determination of an Empirical Transfer Function of a Solid Oxide Fuel Cell Gas Turbine Hybrid System Via Frequency Response Analysis
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034505.
doi: https://doi.org/10.1115/1.3006302
Topics:
Frequency response
,
Gas turbines
,
Solid oxide fuel cells
,
Transfer functions
,
Fuel cells
,
Valves
,
Fuels
,
Temperature
,
Turbines
,
Flow (Dynamics)
Hydrocarbon Condensation Heating of Natural Gas by an Activated Carbon Desulfurizer
J. Fuel Cell Sci. Technol. August 2009, 6(3): 034506.
doi: https://doi.org/10.1115/1.3009269
Topics:
Activated carbon
,
Condensation
,
Heating
,
Latent heat
,
Natural gas
,
Water vapor
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