Fabrication Procedures and Material Properties of Activated Carbon for Hydrogen and Methane Storage

Jeffrey Pobst; Jacob Burress; Mikael Wood; Matthew Beckner; Parag Shah; Michael Gordon; Phillip Parilla; Sarah Barker; Sara Carter; Lauren Aston; Galen Suppes; Peter Pfeifer

Fabrication Procedures and Material Properties of Activated Carbon for Hydrogen and Methane Storage

ORAL

Abstract

The Alliance for Collaborative Research in Alternative Fuel Technology (http://all-craft.missouri.edu) has developed nanoporous biocarbons with interesting pore characteristics. These carbons are being optimized for hydrogen and methane vehicular storage. Our current best performer stores 73-91 g H$_{2}$/kg carbon at 77 K and 47 bar, and 1.0-1.6 g H$_{2}$/kg carbon at 293 K and 47 bar. The validity of using methane storage as a predictor for hydrogen storage will be presented. Recent carbons have achieved porosities as high as of 0.8 and BET surface areas of 3,500 m$^{2}$/g. Optimal pore sizes and volumes will be presented for hydrogen storage nanoporous carbon.

^*NSF-PFI (PFI-0438469); GAANN U.S. Dept. of Ed. (P200A040038); D.O.E. (DE-AC02-06CH11357); MU Research Board: Univ. of Missouri (RB-06-040); D.O.D. (N00164-07-P-1306); D.O.E. (DE-FG02-07ER46411)

March 12, 2008, 4:18 PM – March 12, 2008, 4:30 PM

Authors

Jeffrey Pobst
- Univ. of Missouri-Columbia
Jacob Burress
- Univ. of Missouri-Columbia
Mikael Wood
- Univ. of Missouri-Columbia
Matthew Beckner
- Univ. of Missouri-Columbia
Parag Shah
- Univ. of Missouri-Columbia
Michael Gordon
- Univ. of Missouri-Columbia
Phillip Parilla
- NREL
Sarah Barker
- Univ. of Missouri-Columbia
Sara Carter
- Univ. of Missouri-Columbia
Lauren Aston
- Univ. of Missouri-Columbia
Galen Suppes
- Univ. of Missouri-Columbia
Peter Pfeifer
- Univ. of Missouri-Columbia