202nd Meeting - Salt Lake City, UT
October 20-25, 2002
F1 - Power Source Modeling
Battery/Industrial Electrolysis and Electrochemical Engineering
Tuesday October 22, 2002
Murano Garden Salon, Main Level, Grand America Hotel
Co-Chairs: R.G. Jungst and J. Weidner
||Modeling Performance of Lithium-Ion Batteries with Mangenese Spinel Positive Electrodes - P. Nelson, J. Liu, K. Amine, and G. Henriksen
(Argonne National Laboratory)|
||Use of a Model To Delineate Sources of Impedance Rise in Two Li-ion Cell Chemistries -
B.G. Potter, S.A. Jones, G.L. Henriksen, I.D. Bloom (Argonne National Laboratory), C.
Motloch, J. Christophersen, and J. Belt (Idaho National Engineering and Environmental Laboratory)|
||Thermal Modeling of Lithium-Ion Batteries - C.
Lampe-Onnerud, B. Barnett, C. Fulton, D. Novikov, R. Chamberlain, P. Onnerud, M. Rona, J. Shi,
S.K. Singh, S. Sriramulu, R. Stringfellow, and R. Weber (TIAX, LLC)|
||Capacity Loss Predictions for Active Lithium Primary Cells Using Accelerated Aging - D.
Weigand, D. Hardy, K. Weaver, M. Overstreet, and H. Papenguth (Sandia National Laboratories)|
||Forty-Minute Intermission - |
||Approaches for Simulation of Capacity Fade in Lithium-Ion Batteries - R. Spotnitz (Battery Design Co.)|
||Accelerated Test Protocol and Life Prediction Model for Lithium-Ion Cells - R.
Jungst, E. Thomas, H. Case, G. Nagasubramanian (Sandia National Laboratories),
B.Y. Liaw (Hawaii Natural Energy Institute), and D. Doughty (Sandia National Laboratories)|
||Inductive Model Development for Lithium-Ion Batteries to Predict Life and Performance - A.
Urbina, T. Paez, R. Jungst, B.Y. Liaw, H. Case, and D. Doughty (Sandia National Laboratories)|
||Equivalent Circuit and Fuzzy Logic Modeling for Impedance Increase in Li-Ion Cells - G. Nagasubramanian
(Sandia National Laboratories) and P. Singh (Villanova University)|
||Development of Battery and Electrochemical Capacitor Equivalent Circuit Models for Power System Optimization - S. Butler and J. Miller
||Virtual Test Bed for Electrochemical Power Sources - L.
Gao, M. Blackwelder, Z. Wu, and R. Dougal (University of South Carolina)|
Co-Chairs: B.Y. Liaw and K. Nechev
||Modeling of Nickel Metal Hydride Batteries for Hybrid Vehicle Application - C.
Maugy, D. Porcellato, and J.-M. Tarascon (PSA)|
||Hysterisis During Cycling of the Nickel Hydroxide Active Material - V. Srinivasan (University of California), J. Weidner (University of South Carolina), and J. Newman (University of California)|
||Mechanistic Model of Charge Retention in AB2-Based Nickel Metal Hydride Systems - X.-G. Yang and
B.Y. Liaw (University of Hawaii at Manoa)|
||First-Principle-Based Finite-Element Modeling of A Li(Si)/ LiCl-KCl/FeS2 Thermal-Battery Cell -
K.S. Chen, G.H. Evans, and R.S. Larson (Sandia National Laboratories)|
||Design-Simulation Tool for Thermal Analysis of Thermal Batteries - H.
Papenguth, R. Weatherby, D. Dobranich, T. Barrentine, P. Chavez, and L. Lehoucq
(Sandia National Laboratories)|
||Twenty-Minute Intermission - |
||Uncertainty of Critical Battery Performance Parameters - G. Hunt, D. Marts (Idaho National Engineering and Environmental Laboratory), and J. Morrison (Montana Tech)|
||Comprehensive Modeling of Battery Electrolytes Using a Chemical Physics Approach - K. Gering (Idaho National Engineering and Environmental Laboratory)|
||A Lead-Acid Cell Model under MATLAB Applying Analytical Jacobian Matrices - B. Brandstaetter and B. Schweighofer
(Graz University of Technology)|
||Macroscopic Models for Electrochemical Capacitors - V. Subramanian and R. White (University of South Carolina)|
||Dynamics of the Deposition of Metals on a Porous Cathode - A.
Vedenjapin, M. Baturova (Russian Academy of Sciences), D. Weichgrebe, and E. Danilova (University of
Wednesday October 23, 2002
Co-Chairs: R.G. Jungst and B.Y. Liaw