2023 Archived Content

Cambridge EnerTech’s

Battery Engineering for Automotive Applications

Building Better Batteries through Improvements in Battery Safety, Cell Engineering, and Battery Management Systems

December 12-13, 2023


As battery technology continues to improve, the need grows for well-engineered battery systems that take full advantage of the active cell materials. We need to design packs that guarantee a reliable cell performance and to integrate battery pack into vehicles to meet vehicle constraints and ensure safety, reliability, and durability. Cell design, including the choice of non-active components, has a considerable impact on battery performance and reliability. Battery pack design and integration presents thermal, mechanical, and electrical engineering challenges, almost independent of cell chemistry. Optimizing cell and pack design according to the duty cycle of the application requires a careful balance between cell and pack energy, power, manufacturability, abuse tolerance, thermal characteristics, and cost.

Monday, December 11

Registration Open until 4:30 PM7:00 am

Peak Registration Hours are Monday 7:00 - 8:30 am & Tuesday 7:30 - 8:30 am. Avoid lines come pick up your badge on Sunday or Monday after 9:00 am.

Tuesday, December 12

Registration and Morning Coffee7:30 am

Organizer's Welcome Remarks8:30 am

Victoria Mosolgo, Conference Producer, Cambridge EnerTech

SENSING & DIAGNOSTICS

8:35 am

Chairperson's Remarks

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

8:40 am

Battery Diagnostics and Reuse Sensing Technology

Keisuke Ishikawa, Researcher, Toyota Central R&D Labs, Inc.

This presentation introduces a novel Electrochemical Impedance Spectroscopy (EIS) method for detecting the growth of lithium metal plating within lithium-ion batteries. This method can be assembled either as a sensor or as an instrumental system to diagnose the safety degradation associated with battery reusing.

9:00 am

Aged Battery SOC(OCV) Curves and the Impact on SOC Estimation

Gabrielle Vuylsteke, Research Engineer, Research & Advanced Engineering, Ford Motor Co.

This work presents a case study evaluating the reliability of a model-based battery state estimation framework, where we tested the algorithm on pack-level data from beginning, middle, and end of battery life.

9:20 am

Defining Diagnostic Parameters for Early Detection of Thermal Runaway

Loraine Torres-Castro, PhD, Battery Safety Lead, Sandia National Laboratories

This presentation details a project funded by the Department of Transportation to better understand the metrics and response times of commercial and novel sensor technologies. The capability of these sensors to identify markers of imminent failure in cells and battery packs is a critical component of the project, and the main topic of discussion during this presentation.

9:40 am MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

PANELISTS:

Keisuke Ishikawa, Researcher, Toyota Central R&D Labs, Inc.

Loraine Torres-Castro, PhD, Battery Safety Lead, Sandia National Laboratories

Grand Opening Coffee Break in the Exhibit Hall with Poster Viewing10:00 am

BATTERY MANAGEMENT FOR LITHIUM-METAL

10:40 am

Closed-Form Equations to Compute Impedance for Rechargeable Lithium-Metal Batteries with Application to Advanced Battery Management

Gregory L. Plett, PhD, Professor, Electrical & Computer Engineering, University of Colorado, Colorado Springs

Rechargeable lithium-metal batteries (LMBs) are viewed as the next important leap forward in lithium battery technology. Providing higher energy density than state-of-the-art lithium-ion batteries, LMBs have been largely held back by safety concerns and insufficient cycle life. Recent advances have made lithium metal viable for commercial production, though mathematical models of this chemistry have been slow to appear. This work introduces a closed-form impedance model for lithium metal chemistry and points the way toward reduced complexity model forms amenable to battery management system (BMS) applications.

11:00 am

A Control-Oriented Reduced-Complexity Model for Lithium-Metal Batteries with Application to Advanced Battery Management

Scott Trimboli, PhD, Associate Professor, Electrical & Computer Engineering, University of Colorado, Colorado Springs

Lithium-metal batteries (LMB) have recently emerged as a contender due to their inherently high specific energy (300 -550 Wh kg-1 versus 100-265 Wh kg-1  for lithium-ion), making them particularly appealing in heavy-duty class 4-8 trucks and buses. Advances in design have overcome many of the detractors (poor cycle-life and safety concerns) and LMB now show promise for commercial development.  Like lithium-ion batteries (LIB), LMB require careful management to ensure good performance and safe operation. In this presentation, we will formulate a reduced-complexity single particle model (SPM) of LMB amenable to real-time battery management and advanced control.

11:20 am SafeCore - An Internal Fuse to Help Prevent Thermal Runaway

Dan Squiller, CEO, Amionx

SafeCore is a material that is coated on the current collector that acts like a fuse to help prevent thermal runaway. It protects against overcharge and internal short, and can enable next-generation chemistries like lithium metal and nanosilicon. 

11:40 am MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

PANELISTS:

Gregory L. Plett, PhD, Professor, Electrical & Computer Engineering, University of Colorado, Colorado Springs

Scott Trimboli, PhD, Associate Professor, Electrical & Computer Engineering, University of Colorado, Colorado Springs

Dan Squiller, CEO, Amionx

Networking Lunch12:00 pm

FIRE SUPPRESSION & PREVENTING THERMAL RUNAWAY

1:00 pm

Chairperson's Remarks

Judy Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes

1:05 pm

Fire Suppression Studies for Lithium-ion Battery Fires

Judy Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes

In the past few years, the Electrochemical Safety Research Institute (ESRI) team has been working on characterizing the efficacy of fire suppressants on various sizes and chemistries of lithium-ion modules. The fire suppressants that have been used repeatedly for the studies are nitrogen gas, water and a commercial aerosol-based fire suppressant. The time, duration and direction of release of the suppressants, as well as reignition after suppressant use, have been studied. 

1:25 pm

Benchmarking and Predicting the Risks of Li-ion Cells Undergoing Thermal Runaway.

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

With new designs and chemistries, the performance of Li-ion batteries increases year after year. The risks associated with thermal runaway of cells change too and a challenge persists in determining whether increased performance comes at the expense of reduced safety. This work focuses on understanding correlations between heat generation and mass ejection during thermal runaway, the causes of outlier behaviors, and the predictability of risks using zero- or one-shot learning.

1:45 pm

New Requirements and New Solutions for Multi-Functional Venting Units

Michael Harenbrock, PhD, Principal Expert, Engineering Electric Mobility, MANN+HUMMEL GmbH

Multi-functional venting units are essential components in holistic battery safety concepts, enabling pressure equalization between pack interior and environment in regular operation, as well as effective overpressure release during thermal runaway, even reducing the risk of battery fires. With an increasing variety in battery pack designs and cell chemistries, the functionality of venting units must be adapted accordingly. This presentation will show current trends and solutions in venting unit engineering.

2:05 pm MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Judy Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes

PANELISTS:

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

Michael Harenbrock, PhD, Principal Expert, Engineering Electric Mobility, MANN+HUMMEL GmbH

Refreshment Break in the Exhibit Hall with Poster Viewing (Sponsorship Opportunity Available)2:20 pm

FAST-CHARGING

2:55 pm

Chairperson's Remarks

Judy Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes

3:00 pm

Cell Structure Engineering for Extreme Fast-Charging of LFP-Based Lithium-ion Batteries

Ryan Longchamps, PhD, Head Product Development, Engineering, EC Power LLC

Lithium iron phosphate (LFP)-based lithium-ion batteries enable moderate range electric vehicles with safe batteries that approach mass-market acceptable price points. However, the challenge of reaching "refill" times comparable to user expectations (e.g., <10 min.) persists. This talk presents EC Power’s thermally modulated cell structure, which permits extreme fast charging of ~170 Wh/kg LFP-based lithium-ion cells with long cycle life at both room temperature and -50 degrees Celsius.

3:20 pm

Regarding the Tandem Needs of Fast Charging and Extended Battery Life Predictions

Kevin L. Gering, Distinguished Staff Scientist, Energy Storage Technologies, Idaho National Laboratory

Battery fast-charging will unlock widespread EV potential, yet can lead to early cell failure and reduced performance. Advanced charge protocols based on key cell parameters can yield improved charge times and energy accepted while minimizing degradation. The impact and analysis of advanced charge protocols will be discussed. Whether through fast charging or numerous other application-driven duty cycles, knowing the extended aging path of a chosen Li-ion chemistry remains a challenging goal.  Such information will be informative on battery valuation over life. An approach toward long-term predictions will be discussed, which maintains a physics-based focus on materials/system, yet with ML support.

3:40 pm MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Judy Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes

PANELISTS:

Ryan Longchamps, PhD, Head Product Development, Engineering, EC Power LLC

Kevin L. Gering, Distinguished Staff Scientist, Energy Storage Technologies, Idaho National Laboratory

SCALE-UP

4:15 pm

Chairperson's Remarks

Eric Darcy, PhD, Battery Technical Discipline Lead, Power Systems, NASA Johnson Space Center

4:20 pm

Challenges with Scaling-Up PPR Battery Designs from 18650 to 21700 Cells

Eric Darcy, PhD, Battery Technical Discipline Lead, Power Systems, NASA Johnson Space Center

NASA has 3 design approaches for achieving passively propagation-resistant battery designs with 18650 cells. The interstitial heat sink approach is most volumetrically efficient and achieves 459 Wh/L using 18650 cells 725 Wh/L. Scaling-up this design to 21700 designs that are >725 Wh/L presents challenges to demonstrate similar adjacent cell protection from conducted heat through the heat sink and from ejected heat diverted by blast plate barriers and channels.

4:40 pm

Scaling-Up Laser-Ablation for Roll-to-Roll Structuring of Fast-Charging and Long-Life Electrodes

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

Controlling the microstructure of porous Li-ion electrodes can considerably improve their energy- and power-density. However, scale-up of cost-effective structuring techniques to high-throughput roll-to-roll production is challenging. In this work, we focus on the use of laser-ablation for high-throughput roll-to-roll production of structured electrodes, with enhanced fast-charging and long-life capability. This talk will cover the challenges, performance benefits, and economics associated with scaling to roll-to-roll production of laser-ablated structured electrodes.

LIFETIME & SAFETY

5:00 pm

How Temperature Affects Lifetime and Safety of Li-ion Batteries

Max Feinauer, Research Associate, Center for Solar Energy and Research, ZSW

Understanding the aging behavior of Li-ion batteries is critical to improving their lifetime, performance, safety, and sustainability. In particular, temperature is one of the most impacting factors influencing the cyclic aging behavior of Li-ion batteries. Furthermore, the subsequent aging and safety behavior can change drastically depending on the previous aging conditions. While safety-critical Li plating dominates cyclic aging at low temperatures, solid-electrolyte-interphase growth dominates the aging at high temperatures.

5:20 pm Towards the Industrialization of Next-Generation Batteries

Yong Che, PhD, Co-founder and CTO, Top Management, Enpower Greentech Inc.

Navigating the shift from lab tech to industrial production, known as the challenging "valley of death," demands precision and collaboration. Enpower Greentech Inc. (EGI) is a startup, leveraging regional strengths from the US, Japan, and China. EGI employs open innovation in R&D, bridging the gap between lab innovations and industrialization. The presentation focuses on lithium metal-based battery product industrialization and cell performances.

5:40 pm MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Eric Darcy, PhD, Battery Technical Discipline Lead, Power Systems, NASA Johnson Space Center

PANELISTS:

Donal P. Finegan, PhD, Staff Scientist Batteries, Electrified Transport, National Renewable Energy Laboratory

Max Feinauer, Research Associate, Center for Solar Energy and Research, ZSW

Networking Reception in the Exhibit Hall with Poster Viewing6:00 pm

Close of Day7:00 pm

Wednesday, December 13

Registration and Morning Coffee7:40 am

Interactive Breakout Discussions7:45 am

Roundtable discussions are informal, moderated discussions with brainstorming and interactive problem-solving, allowing participants from diverse backgrounds to exchange ideas and experiences and develop future collaborations around a focused topic.


TABLE 1: Innovations in Recycling Battery Materials 
Moderator: Steven E. Sloop, President, OnTo Technology LLC


TABLE 2:  Battery Pack System Cost and Safety – Will Future xEV Battery Packs Increase in Complexity or Simplify and How Will Cost and Safety Be Impacted?
Moderator: Kevin Konecky, Battery and Energy Storage Systems Consultant, Total Battery Consulting


TABLE 3: Production Supply and Sustainability of a North American Supply Chain
Moderator: Rob Privette, Business Development Manager, North America, Umicore 


TABLE 4: Li-ion NMC Fast Charging New Cells for E-Mobility
Moderator: Shmuel De-Leon, CEO, Shmuel De-Leon Energy, Ltd.


TABLE 5: Inactive Materials: Developments in Current Collectors, Separators and Electrolytes
Moderator: Sam Jaffe, Business Development, Addionics


TABLE 6: Building the Domestic Battery Raw Material Supply Chain
Moderator: Carl Thoemmes, Business Development, Battery Materials, Koura


TABLE 7: Battery Cost vs. Passport, CO2 Footprint & Lifetime Warranty – What Does the Battery Regulation Legislation Bring?
Moderator: Wenzel Prochazka, Senior Product Manager Electrification Systems, NXP Semiconductors Austria


TABLE 8: High Percentage Silicon-Content Anodes and Cells 
Moderator: Benjamin Park, PhD, Founder & CTO, Enevate


TABLE 9: Battery Management Systems 
Moderator: Sheldon Williamson, PhD, Professor & Canada Research Chair, Electrical & Computer & Software Engineering, University of Ontario Institute of Technology​


TABLE 10: Battery Intelligence
Moderator: Eli Leland, PhD, CTO and Co-Founder, Voltaiq, Inc.


​TABLE 11: Lithium Metal Batteries
Moderator: Brian Sisk, PhD, CTO, Sepion Technologies​


TABLE 12: Battery Safety & Thermal Runaway
Moderator: Judith Jeevarajan, PhD, Vice President and Executive Director, Electrochemical Safety Research Institute, UL Research Institutes


TABLE 13: Silicon Anodes
Moderator: Manuel Wieser, Head of Energy Business, AnteoTech

INCREASING BATTERY PERFORMANCE

8:25 am

Chairperson's Remarks

Kevin Konecky, Battery and Energy Storage Systems Consultant, Total Battery Consulting

8:30 am How to Address Cost Pressures & Sustainability with Customized Battery Interconnect Solutions

Gustavo Cibrian, Product Manager, Energy Interconnect Systems NA Region

This presentation is about uncovering the key challenges faced by battery makers and EV makers, gaining an understanding of the latest trends and advancements in battery interconnect technology. Understanding the different cost-effective and eco-conscious solutions and how they are implemented in current and next-generation EV. Discovering the technologies behind these solutions and how they can be customized to your end application.

8:50 am Battery Trends – What Does that Mean for Sustainable BMS Building Blocks?

Wenzel Prochazka, Dr., Senior Product Manager Electrification Systems, Advanced Analog, NXP Semiconductors Austria GmbH

The trend towards energy efficient and sustainable batteries continues, as electric vehicles are becoming a core product for global OEMs. Especially in the EU the battery directive a roadmap to becoming sustainable that not only drives technical innovation in battery design, but also sets a strong focus on sustainability data and secure product information handling for generating a stable value to the battery even on the used or secondary market.

9:10 am

Research Strategy for Batteries for the Department of Defense

Joshua Lamb, PhD, Special Scientific Advisor, OUSD R&E/Emerging Technologies, Office of the Undersecretary of Defense

The Department of Defense fields a wide variety of batteries with unique requirements and operating environments. While many of these can be met with commercially available battery technology, existing and emerging requirements call for new developments in science and technology (S&T). This talk will give an overview of the DoD Battery S&T Strategy and high-level needs across all domains.

9:30 am

Increasing Battery System Performance

Kevin Konecky, Battery and Energy Storage Systems Consultant, Total Battery Consulting

Battery systems are complex systems with the battery cell as the core technology of the system but then integrated with multiple subsystems, including mechanical, thermal, and battery management systems (BMS). This presentation will look into the different subsystems that contribute to the overall battery system performance and opportunities for improvement in next-generation battery systems. Battery system trends in the industry will be evaluated and discussed.

9:50 am Utilizing Chip-on-Cell Sensing for Better Battery Management

Carlton Brown, Vice President Global Customer Programs, Dukosi

By applying chip-on-cell battery monitoring solution with near field communication, enable cell-to-pack architectures without increasing pack size for line-of-sight communication, and without sense lead wire harnesses and connectors. Measure with the highest accuracy and data granularity, do so while inherently electrically isolated, synchronize measurements of all cells, and utilize on-cell provenance and usage history data storage to aid in compliance with emerging tracking and tracing regulation. Improve warranty analysis and re-use.

10:10 am MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Kevin Konecky, Battery and Energy Storage Systems Consultant, Total Battery Consulting

PANELISTS:

Carlton Brown, Vice President Global Customer Programs, Dukosi

Joshua Lamb, PhD, Special Scientific Advisor, OUSD R&E/Emerging Technologies, Office of the Undersecretary of Defense

Wenzel Prochazka, Dr., Senior Product Manager Electrification Systems, Advanced Analog, NXP Semiconductors Austria GmbH

Coffee Break in the Exhibit Hall with Poster Viewing (Sponsorship Opportunity Available)10:25 am

PLENARY KEYNOTE

10:55 am

Chairperson's Remarks

Craig Wohlers, Executive Director, Conferences, Cambridge EnerTech

11:00 am

LG Leading the Battery Expansion in North America

Robert Lee, President, North American & Chief Strategy Officer, LG Energy Solution

LG Energy Solution is the leading lithium-ion battery manufacturer, working with the top OEMs globally in transforming the automobile industry. The market for EVs is expanding rapidly, driven by both consumer demand and regulatory incentives. In North America, there are unprecedented levels of investment to support EVs, by both OEMs and battery manufacturers. This presentation will discuss market growth projections, announced expansion plans, and the challenges ahead.

11:20 am

A Sustainability Perspective on Near-Future Energy Storage Technologies

Ulderico Ulissi, PhD, Manager, 21C Lab, Contemporary Amperex Technology Limited (CATL)

Energy storage technologies are critical to limiting emissions, and lithium-ion batteries (LIBs) are a key technology for many applications, including automotive and stationary storage. Therefore, we expect the LIB market to continue growing rapidly. This growth is keeping up the momentum for LIB technological development, which has been largely driven towards decreasing costs and improving performance. However, as LIBs become ubiquitous it is also critical to correctly assess the sustainability impact of the technology. In this presentation we will discuss sustainability and how it is linked to product development, to critically discuss the realistic opportunities to make batteries more sustainable in the near future. This will provide the audience more insights into the CATL carbon neutrality plan, and into its pledge to achieve carbon neutrality in its core operations by 2025 and across the battery value chain by 2035.

11:40 am

USABC Battery Development Program Overview

Matt Denlinger, Battery Research Engineer, Energy Storage Research, Ford Motor Company

The United States Advanced Battery Consortium (USABC) is a subsidiary of USCAR. The organization supports advanced battery technology development and commercialization for electric vehicles via funding through a cooperative agreement with the Department of Energy. This talk will give an overview of current and past USABC programs, as well as future funding opportunities for US battery developers.

12:00 pm MODERATED Q&A:

Session Wrap-Up

PANEL MODERATOR:

Craig Wohlers, Executive Director, Conferences, Cambridge EnerTech

PANELISTS:

Robert Lee, President, North American & Chief Strategy Officer, LG Energy Solution

Ulderico Ulissi, PhD, Manager, 21C Lab, Contemporary Amperex Technology Limited (CATL)

John Kwon, General Counsel of Global Legal & Strategy, Contemporary Amperex Technology Limited (CATL)

Matt Denlinger, Battery Research Engineer, Energy Storage Research, Ford Motor Company

Networking Lunch (Sponsorship Opportunity Available)12:15 pm

Dessert Break in the Exhibit Hall with Poster Viewing (Sponsorship Opportunity Available)1:15 pm

Close of Symposium2:00 pm






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