Monday, May 9, 2011
|
| Joint Plenary Session |
| California's Clean Energy Future: Where Do We Go from Here? |
Eggert |
Deputy Secretary for Energy Policy, California Environmental Protection Agency |
| Overview of DOE Office of Science Basic Energy Sciences Activities |
Kung |
Director of Basic Energy Sciences, DOE Office of Science |
| Overview of DOE Hydrogen and Fuel Cells Program |
Satyapal |
Program Manager, DOE Hydrogen and Fuel Cells Program |
| Overview of DOE Vehicle Technologies Office |
Davis |
Program Manager, DOE Vehicle Technologies Office |
| Plenary Session |
| Program Analysis |
Ward |
Analyst |
| Technology Integration |
Smith and Bezanson |
|
| Vehicle & Systems Simulation & Testing |
Slezak |
|
| Materials |
Schutte |
Materials Technology Team Lead |
| Overview of the Advanced Combustion Engine R&D |
Singh |
Team Lead |
| Fuels & Lubricants R&D |
Stork |
Team Lead |
| Hybrid Electric Systems |
Howell |
Team Lead |
| Advanced Power Electronics and Motors R&D |
Rogers |
|
| Poster Presentations |
| Electrochemical Storage |
| Hybrid Nano Carbon Fiber/Graphene Platelet-Based High-Capacity Anodes for Lithium Ion Batteries |
Jang |
Angstron Materials Inc. |
| New High-Energy Nanofiber Anode Materials |
Zhang |
North Carolina State University |
| Engineering of High Energy Cathode Material |
Amine |
ANL |
| New High Energy Gradient Concentration Cathode Material |
Amine |
ANL |
| Design and Evaluation of Novel High Capacity Cathode Materials |
Johnson |
ANL |
| Evaluation of Li2MnSiO4 Cathode |
Belharouak |
ANL |
| Development of High-Capacity Cathode Materials with Integrated Structures |
Kang |
ANL |
| Developing High Capacity, Long Life Anodes |
Amine |
ANL |
| Develop Improved Methods for Making Intermetallic Anodes |
Jansen |
ANL |
| Novel Electrolytes and Additives |
Abraham |
ANL |
| High Voltage Electrolytes for Li-ion Batteries |
Jow |
Army Research Laboratory |
| Advanced Electrolyte Additives for PHEV/EV Lithium-ion Battery |
Zhang |
ANL |
| Electrolytes for Use in High Energy Lithium-Ion Batteries with Wide Operating Temperature Range |
Smart |
JPL |
| Numerical and Experimental Investigation of Internal Short Circuits in a Li-ion Cell |
Kim |
NREL |
| Battery Thermal Modeling and Testing |
Smith |
NREL |
| Novel Phosphazene Compounds for Enhancing Electrolyte Stability and Safety of Lithium-ion Cells |
Gering |
INL |
| Screen Electrode Materials & Cell Chemistries and Streamlining Optimization of Electrodes |
Lu |
ANL |
| Scale-up and Testing of Advanced Materials from the BATT Program |
Battaglia |
LBNL |
| Fabricate PHEV Cells for Testing & Diagnostics |
Jansen |
ANL |
| Electrochemistry Cell Model |
Dees |
ANL |
| Diagnostic Studies on Li-Battery Cells and Cell Components |
Abraham |
ANL |
| Electrochemistry Diagnostics of Baseline and New Materials |
Kostecki |
LBNL |
| Diagnostic Studies to Improve Abuse Tolerance and Life of Li-ion Batteries |
Yang |
BNL |
| Develop and Evaluate Materials and Additives that Enhance Thermal and Overcharge Abuse |
Amine |
ANL |
| Evaluation of Abuse Tolerance Improvements |
Orendorff |
SNL |
| Overcharge Protection for PHEV Batteries |
Chen |
LBNL |
| High Energy Density Ultracapacitors |
Smith |
Naval Surface Warfare Center |
| In-situ Characterization and Diagnostics of Mechanical Degradation in Electrodes |
Daniel |
ORNL |
| Diagnostic Testing and Analysis Toward Understanding Aging Mechanisms and Related Path Dependence |
Gering |
INL |
| New INL High Energy Battery Test Facility |
Murphy |
INL |
| Prototype Cell Fabrication Facility |
Jansen |
ANL |
| Materials Scale-up Facility |
Krumdick |
ANL |
| Post-Test Facility at Argonne |
Bloom |
ANL |
| Progress on ARRA-funded Facility & Capability Upgrades for the Battery Abuse/Safety Laboratory |
Wunsch |
SNL |
| NREL Battery Thermal and Life Test Facility |
Keyser |
NREL |
| Computer-Aided Engineering for Electric Drive Vehicle Batteries (CAEBAT) |
Pesaran |
NREL |
| Mechanism of LTO Gassing and Potential Solutions |
Amine |
ANL |
| High Voltage Electrolyte for Lithium Batteries |
Amine |
ANL |
| Spherical Carbon Anodes Fabricated by Autogenic Reactions |
Thackeray |
ANL |
| Novel Composite Cathode Structures |
Johnson |
ANL |
| Vehicle and Systems Simulation |
| Plug-In Electric Vehicle Integration with Renewables |
Markel |
NREL |
| Analysis of Battery Wear and V2G Benefits Using Real-World Drive Cycles and Ambient Data |
Barnitt |
NREL |
| The ArvinMeritor Dual Mode Hybrid Powertrain (DMHP): Opportunities and Potential for Systems Optimization |
Smith |
ORNL |
| Advanced HEV/PHEV Concepts |
Gonder |
NREL |
| CRADA with PACCAR Experimental Investigation in Coolant Boiling in a Half-Heated Circular Tube |
Yu |
ANL |
| Analyzing Fuel Saving Opportunities through Driver Feedback Mechanisms |
Gonder |
NREL |
| Analysis of Maximizing the Synergy between PHEVs/EVs and PV |
Kinter-Meyer |
PNNL |
| Testing and Validation of Vehicle to Grid Communication Standards |
Gowri |
PNNL |
| Fuels Technologies |
| Impact of Biodiesel on Modern Diesel Engine Emissions |
Williams |
NREL |
Tuesday, May 10, 2011
|
| Oral Presentations |
| Advanced Power Electronics |
| Advanced Power Electronics and Electric Motors |
Rogers |
DOE |
| Inverter Using Current Source Topology |
Su |
ORNL |
| Development, Test and Demonstration of a Cost-Effective, Compact, Light-Weight, and Scalable High Temperature Inverter for HEVs, PHEVs, and FCVs |
Taylor |
Delphi Automotive |
| A Segmented Drive Inverter Topology with a Small DC Bus Capacitor |
Su |
ORNL |
| Wide Bandgap Materials |
Chinthavali |
ORNL |
| Development of SiC Large Tapered Crystal Growth |
Neudeck |
NASA |
| Inverter Cost Analysis and Marketing Intelligence |
Whaling |
Synthesis Partners |
| Converter Topologies for Wired and Wireless Battery Chargers |
Su |
ORNL |
| High-Dialectric-Constant Capacitors for Power Electronic Systems |
Balachandran |
ANL |
| High Temperature Polymer Capacitor Dielectric Films |
Dirk |
SNL |
| Benchmarking of Competitive Technologies |
Burress |
ORNL |
| Thermal Performance and Reliability of Bonded Interfaces |
Narumanchi |
NREL |
| Two-Phase Cooling Technology for Power Electronics with Novel Coolants |
Moreno |
NREL |
| Air Cooling Technology for Power Electronics Thermal Control |
Lustbader |
NREL |
| Integrated Vehicle Thermal Management – Combining Fluid Loops in Electric Drive Vehicles |
Rugh |
NREL |
| Electrochemical Storage |
| Overview of Battery R&D Activities |
Howell |
DOE |
| PHEV and LEESS Battery Cost Assessment |
Barnett |
TIAX, LLC |
| PHEV Battery Cost Assessment |
Gallagher |
ANL |
| Overview and Progress of United States Advanced Battery Consortium (USABC) Activity |
Snyder |
Ford Motor Company |
| Progress of DOE Materials, Manufacturing Process R&D, and ARRA Battery Manufacturing Grants |
Johnson |
NETL |
| Overview and Progress of the Applied Battery Research (ABR) Activity |
Faguy |
DOE |
| Overview and Progress of the Exploratory Technology Research Activity: Batteries for Advanced Transportation Technologies (BATT) |
Duong |
DOE |
| Low Cost SiOx-Graphite and High Voltage Spinel Cathode |
Zaghib |
Hydro-Quebec |
| Design and Evaluation of Novel High Capacity Cathode Materials |
Thackeray |
ANL |
| The Synthesis and Characterization of Substituted Phosphates and Layered Manganese Oxides |
Whittingham |
SUNY-Binghamton |
| Olivines and Substituted Layered Materials |
Doeff |
LBNL |
| Development of High Energy Cathode Materials |
Zhang |
PNNL |
| Stabilized Spinel and Polyanion Cathodes |
Manthiram |
University of Texas at Austin |
| First Principles Calculations and NMR Spectroscopy of Electrode Materials |
Ceder |
Massachusetts Institute of Technology |
| Vehicle and Systems & Simulation |
| Vehicle and Systems Simulation and Testing |
Slezak |
DOE |
| Grid Interaction Technical Team |
Hardy |
ANL |
| Codes and Standards Support for Vehicle Electrification |
Bohn |
ANL |
| HEV, PHEV, BEV Test Standard Validation |
Duoba |
ANL |
| Green Racing Initiative: Accelerating the Use of Advanced Technologies & Renewable Fuels |
Larsen |
ANL |
| Advanced Vehicle Testing & Evaluation |
Karner |
ecoTality North America |
| Advanced Technology Vehicle Lab Benchmarking – Level 1 |
Lohse-Busch |
ANL |
| Advanced Technology Vehicle Lab Benchmarking – Level 2 (in-depth) |
Rask |
ANL |
| Autonomie Large Scale Deployment |
Rousseau |
ANL |
| PHEV Engine Control and Energy Management Strategy |
Chambon |
ORNL |
| Integrated Vehicle Thermal Management – Combining Fluid Loops in Electric Drive Vehicles |
Rugh |
NREL |
| Medium- and Heavy-Duty Electric Drive Vehicle Simulation and Analysis |
Barnitt |
NREL |
| Evaluation of Ethanol Blends for PHEVs using Simulation and Engine-in-the-Loop |
Shidore |
ANL |
| Data Collection for Improved Cold Temperature Thermal Modeling and Strategy Development |
Jehlik |
ANL |
| Wireless Plug-in Electric Vehicle (PEV) Charging |
Miller |
ORNL |
| Fuels Technologies |
| Fuels & Lubricants R&D |
Stork |
DOE |
| Fuel and Lubricant Effects |
Bunting |
ORNL |
| Fuels for Advanced Combustion Engines |
Zigler |
NREL |
| Quality, Performance, and Emission Impacts of Biofuels and Biofuel Blends |
McCormick |
NREL |
| Optical-Engine and Surrogate-Fuels Research for an Improved Understanding of Fuel Effects on Advanced-Combustion Strategies |
Mueller |
SNL |
| Advanced Lean-Burn DI Spark Ignition Fuels Research |
Sjoberg |
SNL |
| Non-Petroleum-Based Fuels: Effects on Emissions Control Technologies |
Sluder |
ORNL |
| Gasoline-Like Fuel Effects on Advanced Combustion Regimes |
Szybist |
ORNL |
| Chemical Kinetic Modeling of Non-Petroleum Based Fuels |
Pitz |
LLNL |
| Advanced Combustion Engine |
| Overview of the DOE Advanced Combustion Engine R&D |
Singh |
DOE |
| Heavy-Duty Low-Temperature and Diesel Combustion & Heavy-Duty Combustion Modeling |
Musculus |
SNL |
| Low Temperature Automotive Diesel Combustion |
Miles |
SNL |
| HCCI and Stratified-Charge CI Engine Combustion Research |
Dec |
SNL |
| Spray Combustion Cross-Cut Engine Research |
Pickett |
SNL |
| Automotive HCCI Engine Research |
Steeper |
SNL |
| Large Eddy Simulation (LES) Applied to Low-Temperature and Diesel Engine Combustion Research |
Oefelein |
SNL |
| Free-Piston Engine |
Van Blarigan |
SNL |
| Optimization of Direct-Injection H2 Combustion Engine Performance, Efficiency, and Emissions |
Wallner |
ANL |
| Fuel Injection and Spray Research Using X-Ray Diagnostics |
Powell |
ANL |
| Use of Low Cetane Fuel to Enable Low Temperature Combustion |
Ciatti |
ANL |
| Computationally Efficient Modeling of High-Efficiency Clean Combustion Engines |
Flowers |
LLNL |
| Chemical Kinetic Research on HCCI & Diesel Fuels |
Pitz |
LLNL |
| 2011 DOE Vehicle Technologies KIVA-Development |
Carrington |
LANL |
| Stretch Efficiency for Combustion Engines: Exploiting New Combustion Regimes |
Daw |
ORNL |
| High Efficiency Clean Combustion in Multi-Cylinder Light-Duty Engines |
Briggs |
ORNL |
| Poster Presentations |
| Electrochemical Storage |
| USABC Battery Separator Development |
Smith |
Celgard, LLC |
| Multifunctional, Inorganic-Filled Separators for Large Format, Li-ion Batteries |
Pekala |
Entek Membranes, LLC |
| A High-Performance PHEV Battery Pack |
Alamgir |
LG Chem Power, Inc. |
| USABC HEV and PHEV Programs |
Yoon |
A123Systems, Inc. |
| Perfluoro Aryl Boronic Esters as Chemical Shuttle Additives |
Patterson |
EnerDel, Inc. |
| JCS PHEV System Development-USABC |
Engstrom |
Johnson Controls - Saft |
| Advanced Cathode Material Development for PHEV Lithium Ion Batteries |
Gardner |
3M |
| Stabilized Lithium Metal Powder, Enabling Material and Revolutionary Technology for High Energy Li-ion Batteries |
Yakovleva |
FMC |
| Protection of Li Anodes Using Dual Phase Electrolytes |
Mikhaylik |
Sion Power Corporation |
| Process for Low Cost Domestic Production of LIB Cathode Materials |
Thurston |
BASF Catalysts, LLC |
| Propulsion Materials |
| Erosion of Radiator Materials by Nanofluids |
Routbort |
ANL |
| Materials for HCCI Engines |
Muralidharan |
ORNL |
| Hydrogen Materials Compatibility for the H-ICE |
Alvine |
PNNL |
| Materials-Enabled High-Efficiency Diesel Engines (CRADA with Caterpillar) |
Kass |
ORNL |
| Materials for High Pressure Fuel Injection Systems |
Blau |
ORNL |
| Materials for Advanced Engine Valve Train |
Maziasz |
ORNL |
| Compact Potentiometric NOx Sensor |
Singh |
ANL |
| NDE Development for AcertTM Engine Components |
Sun |
ANL |
| Ultra-Fast Chemical Conversion Surfaces |
Erdemir |
ANL |
| Catalyst Characterization |
Watkins |
ORNL |
| Advanced Power Electronics |
| Glass Dielectrics for DC Bus Capacitors |
Lanagan |
Penn State University |
| Power Device Packaging |
Liang |
ORNL |
| Electro-thermal-mechanical Simulation and Reliability for Plug-in Vehicle Converters and Inverters |
Hefner |
NIST |
| Integration of Novel Flux Coupling Motor and Current Source Inverter |
Hsu |
ORNL |
| Motor Packaging with Consideration of Electromagnetic and Material Characteristics |
Miller |
ORNL |
| Physics of Failure of Electrical Interconnects |
DeVoto |
NREL |
| Compact, Light-Weight, Single-Phase, Liquid-Cooled Cold Plate |
Narumanchi |
NREL |
| US Electric Drive Manufacturing Center |
Gieseking |
General Motors |
| Low-Cost U.S. Manufacturing of Power Electronics for Electric Drive Vehicles |
Cameron |
Delphi Automotive Systems, LLC |
| Electric Drive Component Manufacturing Facilities - Allison Hybrids to Serve Commercial Trucks |
Tuttle |
Allison Transmission, Inc. |
| U.S. Based HEV and PHEV Transaxle Program HF35 |
Poet |
Ford Motor Company |
| Providing Vehicle OEMs Flexible Scale to Accelerate Adoption of Electric Drive Vehicles |
Carter |
Remy, Inc. |
| Electric Drive Component Manufacturing Facilities |
Lutz |
UQM Technologies |
| Electric Drive Component Manufacturing: Magna E-Car Systems of America, Inc. |
Thomas |
Magna E-Car Systems of America, Inc. |
| DC Bus Capacitor Manufacturing Facility for Electric Drive Vehicles |
Boan |
KEMET Electronics Corporation |
| Construction, Qualification, and Low Rate Production Start-up of a DC Bus Capacitor High Volume Manufacturing Facility with Capacity to Support 100,000 Electric Drive Vehicles |
Sawyer |
SBE, Inc. |
| Electric Drive Semiconductor Manufacturing (EDSM) Center |
Smith |
Powerex, Inc. |
Wednesday, May 11, 2011
|
| Oral Presentations |
| Advanced Power Electronics |
| Scalable, Low-Cost, High Performance IPM Motor for Hybrid Vehicles |
El-Refaie |
General Electric Global |
| Novel Flux Coupling Machine without Permanent Magnets |
Hsu |
ORNL |
| A New Class of Switched Reluctance Motors without Permanent Magnets |
Burress |
ORNL |
| Permanent Magnet Development for Automotive Traction Motors |
Anderson |
Ames |
| Electric Motor Thermal Management |
Bennion |
NREL |
| High Power Density Integrated Traction Machine Drive |
Wang |
ORNL |
| Advanced Integrated Electric Traction System |
Smith |
General Motors |
| Lightweight Materials |
| Lightweight Materials |
Schutte |
DOE |
| Technical Cost Modeling - Life Cycle Analysis Basis for Program Focus |
Das |
ORNL |
| Analyzing Casualty Risk Using State Data on Police-Reported Crashes |
Wenzel |
LBNL |
| Low Cost Carbon Fiber Overview |
Warren |
ORNL |
| Carbon Fiber Technology Facility |
Eberle |
ORNL |
| Lower Cost Carbon Fiber Precursors |
Warren |
ORNL |
| Advanced Oxidation & Stabilization of PAN-Based Carbon Precursor Fibers |
Paulauskas |
ORNL |
| Materials Characterization Capabilities at the High Temperature Materials Laboratory: Focus on Carbon Fiber and Composites |
Payzant |
ORNL |
| Electrochemical Storage |
| Investigation of Critical Parameters in Li-ion Battery Electrodes |
Cabana |
LBNL |
| In situ Characterizations of New Battery Materials and the Studies of High Energy Density Li-Air Batteries |
Yang |
BNL |
| Studies on Oxide Cathode Crystals |
Chen |
LBNL |
| Fundamental Approach to Electrode Fabrication and Failure Analysis |
Battaglia |
LBNL |
| New Electrode Designs for Ultrahigh Energy Density |
Chiang |
Massachusetts Institute of Technology |
| Modeling-Thermo-electrochemistry, Capacity Degradation and Mechanics with SEI Layer |
Sastry |
University of Michigan |
| Atomistic Modeling of Electrode Materials |
Persson |
LBNL |
| Electrolytes and Separators for High Voltage Li Ion Cells |
Angell |
Arizona State University |
| Bifunctional Electrolytes for Lithium-ion Batteries |
Scherson |
Case Western Reserve University |
| Electrolytes - Advanced Electrolyte and Electrolyte Additives |
Amine |
ANL |
| Development of Electrolytes for Lithium-ion Batteries |
Lucht |
University of Rhode Island |
| Inexpensive, Nonfluorinated (or Partially Fluorinated) Anions for Lithium Salts and Ionic Liquids for Lithium Battery Electrolytes |
Henderson |
North Carolina State University |
| Electrolytes - R&D for Advanced Lithium Batteries. Interfacial Behavior of Electrolytes |
Kerr |
LBNL |
| Molecular Dynamics Simulation and ab Intio Studies of Electrolytes and Electrolyte/Electrode Interfaces |
Smith |
University of Utah |
| Vehicle and Systems and Simulation |
| Idaho National Laboratory Testing of Advanced Technology Vehicles |
Francfort |
INL |
| Dynamometer Testing of USPS EV Conversions |
Jones |
ORNL |
| Electric Drive and Advanced Battery and Components Testbed (EDAB) |
Carlson |
INL |
| Advancing Plug In Hybrid Technology and Flex Fuel Application on a Chrysler Mini-Van PHEV DOE Funded Project |
Bazzi |
Chrysler Group LLC |
| Plug-in Hybrid (PHEV) Vehicle Technology Advancement and Demonstration Activity |
Cesiel |
General Motors LLC |
| Ford Plug-In Project: Bringing PHEVs to Market |
D'Annunzio |
Ford Motor Company |
| Development and Deployment of Generation 3 Plug-In Hybrid Electric School Buses |
Casey |
Navistar, Inc. |
| LDV HVAC Model Development and Validation |
Chaney |
NREL |
| Real-World PHEV Fuel Economy Prediction |
Gonder |
NREL |
| Advanced PHEV Engine Systems and Emissions Control Modeling and Analysis |
Daw |
ORNL |
| Evaluation of Powertrain Options and Component Sizing for MD and HD Applications on Real World Drive Cycles |
Rousseau |
ANL |
| Boundary Layer Lubrication Mechanisms |
Ajayi |
ANL |
| DOE/DOD Parasitic Energy Loss Collaboration |
Fenske |
ANL |
| Development of High Power Density Driveline for Vehicles |
Fenske |
ANL |
| DOE's Effort to Reduce Truck Aerodynamic Drag through Joint Experiments and Computations |
Salari |
LLNL |
| Propulsion Materials |
| Propulsion Materials |
Gibbs |
DOE |
| Design Optimization of Piezoceramic Multilayer Actuators for Heavy Duty Diesel Engine Fuel Injectors |
Lin |
ORNL |
| Fatigue Enhancements by Shock Peening |
Lavender |
PNNL |
| Fuel Injector Holes |
Fenske |
ANL |
| Tailored Materials for Advanced CIDI Engines |
Grant |
PNNL |
| NOx Sensor Development |
Glass |
LLNL |
| Low Cost Titanium – Propulsion Applications |
Lavender |
PNNL |
| Friction and Wear Enhancement of Titanium Alloy Engine Components |
Blau |
ORNL |
| Non-Rare-Earth Magnetic Materials |
McGuire |
ORNL |
| Materials Issues Associated with EGR Systems |
Lance |
ORNL |
| Durability of Diesel Engine Particulate Filters |
Watkins |
ORNL |
| Catalysts via First Principles |
Narula |
ORNL |
| Thermoelectric Mechanical Reliability |
Wereszczak |
ORNL |
| Thermoelectrics Theory and Structure |
Singh |
ORNL |
| Proactive Strategies for Designing Thermoelectric Materials for Power Generation |
Hendricks |
PNNL |
| Materials for Advanced Turbocharger Designs |
Maziasz |
ORNL |
| Advanced Combustion Engine |
| High Efficiency Engine Systems Development and Evaluation |
Briggs |
ORNL |
| A University Consortium on Efficient and Clean High-Pressure, Lean Burn (HPLB) Engines |
Assanis |
University of Michigan |
| Optimization of Advanced Diesel Engine Combustion Strategies |
Reitz |
University of Wisconsin |
| Flex Fuel Optimized SI and HCCI Engine |
Zhu |
Michigan State University |
| Neutron Imaging of Advanced Engine Technologies |
Toops |
ORNL |
| Expanding Robust HCCI Operation (Delphi CRADA) |
Szybist |
ORNL |
| Rapid Compression Machine – A Key Experimental Device to Effectively Collaborate with Basic Energy Sciences |
Gupta |
ANL |
| Overview of DOE Emission Control R&D |
Howden |
DOE |
| CLEERS Coordination & Joint Development of Benchmark Kinetics for LNT & SCR |
Choi |
ORNL |
| CLEERS Aftertreatment Modeling and Analysis |
Lee |
PNNL |
| Development of Advanced Diesel Particulate Filtration (DPF) Systems |
Lee |
ANL |
| Combination and Integration of DPF-SCR Aftertreatment Technologies |
Rappe |
PNNL |
| Enhanced High Temperature Performance of NOx Storage/Reduction (NSR) Materials |
Peden |
PNNL |
| Degradation Mechanisms of Urea Selective Catalytic Reduction Technology |
Peden |
PNNL |
| Experimental Studies for DPF and SCR Model, Control System, and OBD Development for Engines Using Diesel and Biodiesel Fuels |
Johnson |
Michigan Technological University |
| Development of Optimal Catalyst Designs and Operating Strategies for Lean NOx Reduction in Coupled LNT-SCR Systems |
Harold |
University of Houston |
| Poster Presentations |
| Electrochemical Storage |
| Li-Ion Battery Cell Manufacturing |
Kwon |
LG Chem Michigan, Inc. |
| Advanced Battery Manufacturing Facilities and Equipment Program |
Flicker |
East Penn Manufacturing Co., Inc. |
| Recovery Act Expanding the First Significant U.S. – Based Manufacturing |
Butler |
EnerDel, Inc. |
| Accelerating the Electrification of U.S. Drive Trains: Ready and Affordable Technology Solutions for Domestically Manufactured Advanced Batteries |
Atkins |
Exide Technologies |
| GM Li-Ion Battery Pack Manufacturing |
Trumm |
General Motors |
| Dow Kokam Lithium Ion Battery Production Facilities |
Pham |
Dow Kokam |
| Saft Factory of the Future |
Conner |
Saft America, Inc. |
| Construction of a Li Ion Battery (LIB) Cathode Production Plant in Elyria, Ohio |
DiCarlo |
BASF Corporation |
| Celgard US Manufacturing Facilities Initiative for Lithium-ion Battery Separator |
Rumierz |
Celgard, LLC |
| Expansion of Domestic Production of Lithium Carbonate and Lithium Hydroxide to Supply US Battery Industry |
Groves |
Chemetall Foote Corp. |
| Recovery Act:Nanoengineered Ultracapacitor Material Surpasses the $/kW Threshold for Use in EDVs |
Wheaton |
EnerG2, Inc. |
| Establish and Expand Commercial Production of Graphite Anode Materials for High Performance Lithium-ion Batteries |
McChesney |
FutureFuel Chemical Company |
| Manufacture of Advanced Battery Metal Containers & Components |
Moffa |
H&T Waterbury |
| High-Volume Manufacturing of LiPF6, A Critical Lithium-ion Battery Material |
O'Leary |
Honeywell International, Inc. |
| Expansion of Novolyte Capacity for Lithium Ion Electrolyte Production |
Wise |
Novolyte Technologies |
| Pyrotek Graphitization Facility Expansion Project |
Sekedat |
Pyrotek, Inc. |
| Toda Material/Component Production Facilities |
Han |
Toda America, Inc. |
| Vertically Integrated Mass Production of Automotive Class Lithium Ion Batteries |
Alvarez |
A123Systems, Inc. |
| Johnson Controls Inc. Domestic Advanced Battery Industry Creation Project |
Ellerman |
Johnson Controls, Inc. |
| Recycling Hybrid and Electric Vehicle Batteries |
Coy |
Toxco, Inc. |
| Propulsion Materials |
| Ultra-High Resolution Electron Microscopy for Catalyst Characterization |
Allard |
ORNL |
| Low-Friction Hard Coatings |
Erdemir |
ANL |
| Residual Stress Measurements in Thin Coatings |
Singh |
ANL |
| Durability of ACERT Engine Components |
Lin |
ORNL |
| Life Cycle Modeling of Propulsion Materials |
Das |
ORNL |
| Low-Cost Direct Bonded Aluminum (DBA) Substrates |
Lin |
ORNL |
| Improved Organics for Power Electronics and Electric Motors |
Wereszczak |
ORNL |
| Engine Materials Compatibility with Alternate Fuels |
Wilson |
ORNL |
| Biofuels Impact on DPF Durability |
Lance |
ORNL |
| Electrically-Assisted Diesel Particulate Filter Regeneration |
Lance |
ORNL |
| Assessment of Nanofluids for HEV Cooling Applications |
Routbort |
ANL |
| Technology Integration |
| Alternative Fuel Trade Alliance Clean Cities Education |
White |
Renewable Fuels Association |
| National Alternative Fuels Training Consortium (NAFTC) Clean Cities Learning Program |
Ebron |
West Virginia University |
| Clean Transportation Education Project |
Tazewell |
North Carolina State University |
| Advanced Electric Drive Vehicle Education Program |
Ebron |
West Virginia University |
| Indiana Advanced Electric Vehicle Training and Education Consortium (I-AEVtec) |
Caruthers |
Purdue University |
| Advanced Electric Drive Vehicle Education Program: CSU Ventures |
Caille |
Colorado State University |
| Advanced Electric Drive Vehicles – A Comprehensive Education, Training, and Outreach Program |
Ferdowsi |
Missouri University of Science and Technology |
| Development and Implementation of Degree Programs in Electric Drive Vehicle Technology |
Ng |
Wayne State University |
| Electric Vehicle Safety Training for Emergency Responders |
Klock |
National Fire Protection Association |
| Recovery Act – An Interdisciplinary Program for Education and Outreach in Transportation Electrification |
Naber |
Michigan Technological University |
| Recovery Act—Transportation Electrification Education Partnership for Green Jobs and Sustainable Mobility |
Peng |
University of Michigan |
| Advanced Electric Drive Vehicles |
Schwendeman |
J. Sargeant Reynolds Community College |
| Electric Vehicle Service Personnel Training Program |
Bernstein |
City College of San Francisco |
Thursday, May 12, 2011
|
| Oral Presentations |
| Lightweight Materials |
| Low Cost Carbon Fiber Composites for Lightweight Vehicle Parts |
Stike |
Materials Innovation Technologies, LLC |
| Focal Project 4: Structural Automotive Components from Composite Materials |
Houston |
Ford Motor Company |
| Multi-Materials Vehicle R&D Initiative Lightweight 7+ Passenger Vehicle |
Wagner |
Ford Motor Company |
| Magnesium Front End Research and Development (MFERD) |
Luo |
General Motors |
| Integrated Computational Materials Engineering (ICME) for Mg: International Pilot Project |
Li |
Ford Motor Company |
| Southern Regional Center for Lightweight Innovative Design (SRCLID) |
Wang |
Mississippi State University |
| High Strain-Rate Characterization of Magnesium Alloys |
Simunovic |
ORNL |
| Diffusion Databases for ICME |
Kulkarni |
ORNL |
| Materials Informatics for the ICME CyberInfrastructure |
Ferris |
PNNL |
| Solid Oxide Membrane (SOM) Electrolysis of Magnesium: Scale-Up Research and Engineering for Light-Weight Vehicles |
Derezinski |
MOxST |
| Pulse-Pressure Forming (PPF) of Lightweight Metals |
Davies |
PNNL |
| AMD 405: Improved Automotive Suspension Components Cast with B206 Alloy |
Luo |
General Motors |
| Fundamental Study of the Relationship of Austenite-Ferrite Transformation Details to Austenite Retention in Carbon Steels |
Feng |
ORNL |
| AHSS Stamping Project – A/SP 050; Nonlinear Strain Paths Project – A/SP 061 |
Xia |
Ford Motor Company |
| Materials Characterization Capabilities at the High Temperature Materials Laboratory: Focus Lightweight Materials |
Watkins |
ORNL |
| Electrochemical Storage |
| Polymers for Advanced Lithium Batteries |
Balsara |
LBNL |
| The Role of Surface Chemistry and Bulk Properties on the Cycling and Rate Capability of Lithium Positive Electrode Materials |
Shao-Horn |
Massachusetts Institute of Technology |
| Interfacial Processes - Diagnostics |
Kostecki |
LBNL |
| Performance and Degradation Modeling of Li-ion Batteries |
Srinivasan |
LBNL |
| Advanced Binder for Electrode Materials |
Liu |
LBNL |
| Solid Electrolyte Batteries |
Goodenough |
University of Texas at Austin |
| Novel Lithium Ion Anode Structures: Overview of New DOE BATT Anode Projects |
Kumta |
University of Pittsburgh |
| Integrated Lab/Industry Research Project at LBNL |
Cabana |
LBNL |
| Integrated Lab/Industry Research Project at LBNL |
Vaughey |
ANL |
| Intercalation Kinetics and Ion Mobility in Electrode Materials for Advanced Lithium Ion Batteries |
Daniel |
ORNL |
| In-Situ Electron Microscopy of Electrical Energy Storage Materials |
Unocic |
ORNL |
| Hard Carbon Materials for High-Capacity Li-ion Battery Anodes |
Dai |
ORNL |
| Carbon/Sulfur Nanocomposites and Additives for High-Energy Lithium Sulfur Batteries |
Liang |
ORNL |
| Studies on the Local State of Charge (SOC) and Underlying Structures in Lithium Battery Electrodes |
Nanda |
ORNL |
| Vehicle and Systems and Simulation |
| Medium- and Heavy-Duty Vehicle Field Evaluations |
Walkowicz |
NREL |
| Truck Duty Cycle and Performance Data Collection and Analysis Program |
LaClair |
ORNL |
| CoolCab Test and Evaluation & CoolCalc HVAC Tool Development |
Lustbader |
NREL |
| Vehicle Systems Integration (VSI) Research Laboratory at ORNL |
Smith |
ORNL |
| Recovery Act - Class 8 Truck Freight Efficiency Improvement Project |
Rotz |
Daimler Trucks North America |
| Technology and System Level Demonstration of Highly Efficient and Clean, Diesel Powered Class 8 Trucks |
Newhouse |
Peterbilt Motors Company |
| SuperTruck – Development and Demonstration of a Fuel-Efficient Class 8 Tractor & Trailer |
Jadin |
Navistar, Inc. |
| Advancing Transportation Through Vehicle Electrification - PHEV |
Bazzi |
Chrysler Group LLC |
| Plug-In Hybrid Electric Medium Duty Commercial Fleet Demonstration and Evaluation |
Miyasato |
South Coast Air Quality Management District |
| Advanced Vehicle Electrification |
Van Leeve |
Navistar, Inc. |
| Interstate Grid Electrification Improvement Project |
Gustafson |
Cascade Sierra Solutions |
| Advanced Vehicle Electrification and Transportation Sector Electrification |
Cesiel |
General Motors LLC |
| Advanced Vehicle Electrification + Transportation Sector Electrification |
Mackie |
Smith Electric Vehicles |
| Electric Drive Vehicle Demonstration and Vehicle Infrastructure Evaluation |
Karner |
Ecotality North America |
| ChargePoint America - Coulomb Technologies Program Update |
Carleson |
Coulomb Technologies, Inc. |
| Technology Integration |
| Technology Integration Overview |
Smith |
DOE |
| Clean Cities Tools and Resources |
Melendez |
NREL |
| Clean Cities 2009 Petroleum Displacement Awards |
Scarpino |
NETL |
| Merit Review: EPAct State and Alternative Fuel Provider Fleet |
O'Hara |
DOE |
| Penn State DOE Graduate Automotive Technology Education (Gate) Program for In-Vehicle, High-Power Energy Storage Systems |
Anstrom |
Pennsylvania State University |
| UC Davis Fuel Cell, Hydrogen, and Hybrid Vehicle (FCH2V) GATE Center of Excellence |
Erickson |
University of California-Davis |
| The University of Tennessee's GATE Center for Hybrid Systems |
Irick |
University of Tennessee |
| University of Illinois at Urbana-Champaign's GATE Center for Advanced Automotive Bio-Fuel Combustion Engines |
Lee |
University of Illinois at Urbana-Champaign |
| Center for Lightweighting Automotive Materials and Processing (CLAMP) |
Mallick |
University of Michigan-Dearborn |
| GATE Center for Automotive Fuel Cell Systems at Virginia Tech |
Nelson |
Virginia Tech |
| GATE Center of Excellence at UAB in Lightweight Materials for Automotive Applications |
Vaidya |
University of Alabama at Birmingham |
| 2006-2011 GATE Program at the Ohio State University |
Guezennec |
Ohio State University |
| EcoCAR the Next Challenge |
De La Rosa |
ANL |
| Advanced Combustion Engine |
| Three-Dimensional Composite Nanostructures for Lean NOx Emission Control |
Gao |
University of Connecticut |
| Efficient Emissions Control for Multi-Mode Lean DI Engines |
Parks |
ORNL |
| Cummins/ORNL-FEERC CRADA: NOx Control & Measurement Technology for Heavy-Duty Diesel Engines |
Partridge |
ORNL |
| Emissions Control for Lean Gasoline Engines |
Toops |
ORNL |
| Development of Chemical Kinetic Models for Lean NOx Traps |
Larson |
SNL |
| Deactivation Mechanisms of Base Metal/Zeolite Urea Selective Catalytic Reduction Materials, and Development of Zeolite-Based Hydrocarbon Adsorber Materials |
Peden |
PNNL |
| Fuel-Neutral Studies of Particulate Matter Transport Emissions |
Stewart |
PNNL |
| Overview of the DOE Health Impacts Research |
Eberhardt |
DOE |
| Advanced Collaborative Emissions Study (ACES) |
Greenbaum |
Health Effects Institute |
| Measurement and Characterization of Unregulated Emissions from Advanced Technologies |
Storey |
ORNL |
| Collaborative Lubricating Oil Study on Emissions (CLOSE Project) |
Lawson |
NREL |
| Overview of the DOE High Efficiency Engine Technologies R&D |
Gravel |
DOE |
| Advanced Boost System Development for Diesel HCCI/LTC Applications |
Sun |
Ford Motor Company |
| Cummins SuperTruck Program - Technology and System Level Demonstration of Highly Efficient and Clean, Diesel Powered Class 8 Trucks |
Stanton |
Cummins |
| Super Truck Program: Engine Project Review |
Sisken |
Detroit Diesel |
| Supertruck - Development and Demonstration of a Fuel-Efficient Class 8 Tractor & Trailer |
Jadin |
Navistar International Corp. |
| Poster Presentations |
| Technology Integration |
| Idaho Petroleum Reduction Leadership Project |
Baird |
Treasure Valley Clean Cities Coalition |
| Puget Sound Clean Cities Petroleum Reduction Project |
Meyn |
Puget Sound Clean Air Agency |
| Utah Clean Cities Transportation Sector Petroleum Reduction Technologies Program |
Erickson |
Utah Clean Cities Coalition |
| The SANBAG Ryder Natural Gas Vehicle Project |
Modell |
San Bernardino Associated Governments (SANBAG) |
| Heavy-Duty Natural Gas Drayage Truck Replacement Program |
Miyasato |
South Coast Air Quality Management District |
| UPS Ontario - Las Vegas LNG Corridor Extension Project: Bridging the Gap |
Miyasato |
South Coast Air Quality Management District |
| Wisconsin Clean Transportation Program |
Redmond |
State of Wisconsin |
| Connecticut Clean Cities Future Fuels Project |
York |
Innovation Drive, Inc. |
| State of Indiana/Greater IN Clean Cities Alternative Fuels Implementation Plan |
Flynn |
State of Indiana |
| NJ Compressed Natural Gas Refuse Trucks, Shuttle Buses and Infrastructure |
Feinberg |
New Jersey Clean Cities Coalition |
| Promoting a Green Economy through Clean Transportation Alternatives |
Ebert |
Greater Long Island Clean Cities Coalition |
| New York State-wide Alternative Fuel Vehicle Program for Vehicles and Fueling Stations |
Bolton |
New York State Energy Research and Development Authority |
| The Ohio Advanced Transportation Partnership (OATP) |
Maves |
Clean Fuels Ohio |
| Recovery Act -- Clean Energy Coalition Michigan Green Fleets |
Warshaw |
Clean Energy Coalition |
| Midwest Region Alternative Fuels Project |
Gilbert |
Metropolitan Energy Center |
| North Central Texas Alternative Fuel and Advanced Technology Investments |
Reese |
North Central Texas Council of Governments |
| Texas Propane Vehicle Pilot Project |
Ball |
Railroad Commission of Texas |
| Development of National Liquid Propane (Autogas) Refueling Network, Clean School Bus/Vehicle Incentive & Green Jobs Outreach Program |
Ewing |
Texas State Technical College |
| DeKalb County/Metropolitan Atlanta Alternative Fuel and Advanced Technology Vehicle Project |
Francis |
DeKalb County |
| Chicago Area Alternative Fuels Deployment Project (CAAFDP) |
Bingham |
City of Chicago |
| Kentucky Hybrid Electric School Bus Program |
Settle |
Kentucky Department of Education (KDE) |
| Maryland Hybrid Truck Goods Movement Initiative |
Woolf |
Maryland Energy Administration |
| Carolina Blue Skies & Green Jobs Initiative |
Boyer |
Triangle Clean Cities Coalition |
| Southeast Propane AutoGas Development Program |
Jenkins |
Virginia Clean Cities at James Madison University |
| Lightweight Materials |
| Nanostructure, Chemistry and Crystallography of Iron Nitride Magnetic Materials by Ultra-High-Resolution Electron Microscopy and Related Methods |
Allard |
ORNL |
| Characterization of Li-ion Batteries Using Neutron Diffraction and Infrared Imaging Techniques |
Wang |
ORNL |
| Materials Characterization Capabilities at the HTML: Surface/Sub-surface Dislocation Density Analysis of Forming Samples Using Advanced Characterization Techniques |
Watkins |
ORNL |
| Solid-State Energy Conversion |
| Integration of Advanced Materials and Interfaces for Durable Thermoelectric Automobile Exhaust Waste Heat Harvesting Devices |
Ju |
UCLA |
| Mg2 Si Composites with Embedded Si Nanoparticles for Energy Recovery of Waste Exhaust Heat |
Shakouri |
UC Santa Cruz |
| NSF/DOE Thermoelectric Partnership: Inorganic-Organic Hybrid Thermoelectrics |
Vaddiraju |
Texas A&M University |
| An integrated approach towards efficient, scalable, and low cost thermoelectric waste heat recovery devices for vehicles |
Huxtable |
VPI & SU |
| NSF/DOE Thermoelectric Partnership: High-Performance Thermoelectric Devices Based on Abundant Silicide Materials for Vehicle Waste Heat Recovery |
Shi |
University of Texas, Austin |
| NSF/DOE Thermoelectric Partnership: Thermoelectrics for Automotive Waste Heat Recovery |
Xu |
Purdue University |
Friday, May 13, 2011
|
| Oral Presentations |
| Lightweight Materials |
| Ultra-Fine Grain Foils and Sheets by Large-Strain Extrusion Machining |
Rohatgi |
PNNL |
| Dynamic Characterization of Spot Welds for AHSS |
Feng |
ORNL |
| FSW & USW Solid State Joining of Magnesium to Steel |
Feng |
ORNL |
| Friction Stir Spot Welding of Advanced High Strength Steels II |
Hovanski |
PNNL |
| Materials Characterization Capabilities at the High Temperature Materials Laboratory and HTML User Program Success Stories |
Lara-Curzio |
ORNL |
| Advanced Combustion Engine |
| Thermoelectrics: The New Green Automotive |
Fairbanks |
DOE |
| Thermoelectric HVAC for Light-Duty Vehicle Applications |
Maranville |
Ford Motor Company |
| Improving Energy Efficiency by Developing Components for Distributed Cooling and Heating Based on Thermal Comfort Modeling [Thermoelectric (TE) HVAC] |
Bozeman |
General Motors |
| Thermoelectric Conversion of Waste Heat to Electricity in an IC Engine Powered Vehicle |
Schock |
Michigan State University |
| Develop Thermoelectric Technology for Automotive Waste Heat Recovery |
Meisner |
General Motors |
| Automotive Waste Heat Conversion to Power Program |
LaGrandeur |
BSST |
| NSF-DOE Thermoelectrics Partnership: Automotive Thermoelectric Modules with Scalable Thermo- and Electro-Mechanical Interfaces |
Goodson |
Stanford University |
| DOE/NSF Thermoelectric Partnership Project SEEBECK Saving Energy Effectively By Engaging in Collaborative Research and Sharing Knowledge |
Kanatzidis |
Northwestern University |
| High Fuel Economy Heavy-Duty Truck Engine |
Gibble |
Volvo |
| ATP-LD; Cummins Next Generation Tier 2 Bin 2 Diesel Engine |
Ruth |
Cummins |
| A MultiAir / MultiFuel Approach to Enhancing Engine System Efficiency |
Reese |
Chrysler |
| Lean Gasoline System Development for Fuel Efficient Small Car |
Smith |
General Motors |
| Gasoline Ultra Fuel Efficient Vehicle |
Confer |
Delphi Automotive Systems |
| Advanced Gasoline Turbocharged Direct Injection (GTDI) Engine Development |
Weaver |
Ford Motor Company |
| Advanced Combustion Concepts – Enabling Systems and Solutions (ACCESS) for High Efficiency Light Duty Vehicles |
Yilmaz |
Robert Bosch |
