Location of Repository

Multi-Phase Flow in a Thin Porous Material

By Uwe Beuscher, Saziye Bayram, Philip Broadbridge, Toby Driscoll, David A. Edwards, Joseph Fehribach, James Graham-Eagle, Ryan Haskett, Alfa Heryudono, Huaxiong Huang, Dale Larson, Richard Moore, Steve Pennell, Chris Raymond, Bob Ronkese, Lou Rossi and Ravi Srinivasan
Topics: Energy and utilities, Materials
Year: 2004
OAI identifier: oai:generic.eprints.org:141/core70

Suggested articles



  1. (2003). A Finite Volume Method for Multicomponent Gas Transport in a Porous Fuel Cell Electrode.” doi
  2. A Sharp Interface Reduction for Multiphase Transport in a Porous Fuel Cell Electrode.” Submitted to doi
  3. (2001). A Two-phase Flow and Transport Model for the Cathode doi
  4. (2002). Adiabatic Relaxation of Convective-Diffusive Gas Transport in a Porous Fuel Cell Electrode.” doi
  5. (1999). Calculation of Humidity During Evaporation from Soil.” Adv. doi
  6. (1999). Composition and Performance Modeling of Catalyst Layer in a Proton Exchange Membrane Fuel Cell.” doi
  7. (1957). De Vries, “Moisture Movement in Porous doi
  8. (2001). Numerical Prediction of Mass-exchange Between Cathode and Anode Channels in a doi
  9. (1969). Theory of Infiltration,” doi
  10. (1988). Time to Incipient Ponding: Comparison of Analytic, doi
  11. (1993). Water and Thermal Management in Solid-polymerelectrolyte Fuel-cells.”

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.