James A. Ritter
Professor
Lectures
1.
"Adsorption
with Lateral Interactions on Heterogeneous Surfaces," Physics Department,
South Dakota School of Mines and Technology, Rapid City, SD, December, 1991.
2.
"Hydrogen
Generation during High Level Radioactive Waste Treatment with Formic
Acid", Department of Chemical Engineering, Cleveland State University,
Cleveland, OH, March 1992.
3.
"Hydrogen
Generation during High Level Radioactive Waste Treatment with Formic
Acid", Department of Chemical Engineering, University of Missouri-Columbia,
Columbia, MO,
November 1992.
4.
"Steam
Stripping Organics from Water:
Unsteady-State Modeling Study", Department of Chemical Engineering
and Materials Science, University of Oklahoma, Norman, OK, March 1993.
5.
"Model for
Laterally Interacting Adsorbed Gas Mixtures on Heterogeneous Surfaces",
Department of Chemical Engineering, University of South Carolina, Columbia, SC,
April 1993.
6.
“Solvent Vapor
Recovery by Pressure Swing Adsorption”, The BOC
Group Technical
Center, Murray Hill, NJ,
June 1997.
1.
“New Field
Enhanced Separation Processes for the Removal of Metal Species from Aqueous
Solutions,” New Mexico State University,
Las Cruces, NM, February 1998.
2.
“Adsorption
Process Research for Separation and Purification”, University
of Texas at Austin,
Austin, TX,
October 1998.
3.
“Nanolevel High
Gradient Magnetic Separation,” Idaho National
Engineering and Environmental Laboratory, Idaho
Falls, ID, May 1999.
4. “Equilibrium Theory Analyses
of Novel Pressure Swing Adsorption Cycles for High Heavy Component Enrichment,”
Kumamoto University,
Kumamoto, Japan, May 2001.
5.
“Hydrogen
Storage, A Roadblock to the Hydrogen Economy,” Clemson
University, Clemson, SC,
April 2002.
6.
“What Can
Possibly Be Exciting and New About Pressure Swing Adsorption,” Universidade
Federal Do Ceara, Fortaleza,
Brazil, May
2002.
7.
“Quest for a
Viable Hydrogen Storage Material for Automotive Applications,” University of Florida,
Gainesville, Florida, December 2003.
8.
“Is Hydrogen
Storage Truly a Roadblock to the Hydrogen Economy?” Purdue
University West Lafayette, Indiana,
March 2004.
9. “Complex Hydride for H2 Storage" ,Cooperate Research Department, General Electric, Schenectady, New
York, April 20, 2004.
10. “Complex Hydride H2 Storage Materials,
Metal Hydride H2 Storage Vessels, and PSA H2 Purification
Systems,” Plug Power, May 2004.
11. “Pressure Swing Adsorption (PSA) Technology: Overview
and New Developments,” ExxonMobil, May 2004.
12. “Hydrides for Hydrogen Storage and Delivery,” Air
Products and Chemicals, July 2004.
13. “Carbon Dioxide Sequestration and Adsorbents,” Air
Products and Chemicals, July 2004.
14. “Metal and Complex Hydride Hydrogen Storage Systems,” Air
Products and Chemicals, July 2004.
15. “Modeling the Charge and Discharge Behavior of Metal
Hydride H2 Storage Systems,” Teleconference Seminar Series, USC and
the Fraunhofer Institute, Germany,
December 2005.
16. “Adsorption Process Research at USC: Past, Present and
Future,” Praxair Technology
Center, Tonawanda, New York,
January 6, 2006.
17. “Adsorption Process Research at USC: Past, Present and
Future,” SeQaul Technologies, San
Diego, CA, April 9,
2006.
18. “Metal hydride H2 Storage Systems Modeling
Using Multiphysics,” COMSOL and USC Reaction Engineering Workshop, Columbia, SC,
June 1, 2006.
19. “Adsorption Process Research at USC: Past, Present and
Future,” Atlas Copco, Belgium, September 7, 2006.
20. “Magnetic Drug Targeting,” Commercializing USC
Engineering technologies: Putting USC Discoveries into the Marketplace, Columbia, SC November 3,
2006.
21. “Activated Carbon with Biological Activity and its
Applications, MeadWestvaco, Charleston,
SC, February 26, 2007.
22. “Metal Hydride Hydrogen Storage Vessel Design,”
Millennium Cell, Eatontown,
NJ, April 16, 2007.
