About The Instructor(s)
Session, Dates: 1 (08/25/2014 - 12/13/2014)
Days: T R
Time: 10:45 - 12:00 pm
Location: Moon Campus
Room: John Jay 111
Seats Available: 5 Seats
This course introduces conventional and renewable mechanisms for the transfer and storage of electrical energy. The course beneficially integrates class presentations and hands-on demonstration activities. The topics include: electrochemical storage systems and related power densities; super capacitors, lithium batteries, fuel cell systems, proton exchange membranes, fuel cell stacks; basic principles of operation and future development needs; materials for energy storage and conversion; conventional lead-acid, zinc-air, nickel-cadmium and nickel-metal hydride batteries; fuel cell architectures and electrode life times; purely ionic conductors; mixed Ionic / electronic conductors; ionic transport, conductivity in polymers; AC to DC and DC to AC transformers and electrical circuits; economics of energy storage and conversion.
Tony L. Kerzmann, Ph.D.
Co-Director, SEMS-ROC, STEM Education and Outreach
SEMS - ROC, STEM Education and Outreach
Coordinator, Mechanical Engineering
Associate Professor of Mechanical Engineering
John Jay 291