Battery Engineering Symposium
( 電池工学に関するシンポジウム )

より良い電池の開発

2019年1月28 - 29日

 

 

電池関連の化学技術改善に向けた新たな取り組みが進むなか、技術者たちは、化学技術を全面的に生かしながら、エネルギー密度が高く、費用対効果に優れた信頼性の高い電池を開発しようとしています。この目標を達成するには、材料とセルの工学、機械的・電気的・熱的設計、パックの統合、出力、安全性、重要な設計要素の耐久性などを考慮する必要があります。

 

このシンポジウムでは、大手自動車メーカー、電池のサプライチェーンに加わっている企業、主要な研究機関に所属する研究者が集まり、電池技術の新たな進歩をめぐって議論を展開します。焦点となるのは、セルとパックの技術、およびこれらの領域における進歩を高性能で、安全性と堅牢性も兼ね備えた電池の開発へとつなげていくための方策です。

Final Agenda

1月28日(月)

8:00 Symposium Registration and Morning Coffee

電池の安全性

9:30 Chairperson's Opening Remarks

Gregory Offer, PhD, Senior Lecturer, Mechanical Engineering, Imperial College London

9:35 Thermal Runaway Propagation in Li-Ion Batteries

Andreas Pfrang, PhD, Scientific Officer, Joint Research Centre, Directorate for Energy, Transport and Climate, European Commission

If thermal runaway occurs in a single cell inside battery assemblies, the heat generated typically cannot be easily dissipated and will lead to a temperature increase in adjacent cells. Such thermal runaway can cascade through the whole battery module or pack leading to significant heat and gas release. In this presentation, a model describing thermal runaway based on thermal data of reactions taking place in cells during thermal runaway is shown and thermal runaway initiation methods are compared. Finally, an overview of current standards on thermal propagation is given.

9:55 Calorimeters to Advance Thermal Management and Safety of Batteries

Carlos Ziebert, PhD, Head, Battery Safety Center, IAM-AWP, Karlsruhe Institute of Technology (KIT)

This talk will show how the calorimeters allow studying of the thermal runaway propagation to develop and qualify suitable countermeasures, such as heat protection barriers, which is currently becoming a very "hot topic." The acquired data are essential on all levels of the value chain, from safe design on materials level up to thermal management and adaptation of safety systems, or implementation into modelling and simulation tools.

10:15 Enhancing Cooling System Durability for Battery Packs and Fuel Cells

Michael Harenbrock, Business Development Manager, Mann+Hummel GmbH

Air and Liquid Cooling is required to keep Li Ion Battery Systems at the right temperature range to maintain system performance and to avoid system failure. The presentation will give an overview of the different cooling methods established - open and closed air cooling systems, direct and indirect cooling systems for battery systems. Failure modes caused by coolant contamination will be explained, and technical solutions for particle filtration, water adsorption and ion exchange will be highlighted.

10:35 Networking Coffee Break with Poster Viewing

11:05 Components to Improve Lithium Battery Safety

Peter Kritzer, PhD, Senior Application Manager, Sales Automotive, Freudenberg Sealing Technologies

The presentation will give an overview of products and approaches to improve battery safety. Beside cell separators, specially developed overpressure valves and heat shields, new concept ideas will be presented, which could improve battery safety on a higher level. Besides this, we will produce components enabling a reliable function of the batteries under normal operation.

11:25 Preventing Lithium Ion Battery Failure During High Temperatures by Externally Applied Compression

Gregory Offer, PhD, Senior Lecturer, Mechanical Engineering, Imperial College London

Lithium-ion cells can unintentionally be exposed to temperatures outside manufacturers' recommended limits without triggering a full thermal runaway event. The question addressed in this paper is: Are these cells still safe to use? In this study, externally applied compression has been employed to prevent lithium ion battery failure during such events.

DOW Corning(2)11:45 Solutions for Battery Packs and Control Units Assembly and Cooling

Konstantin Sobolev, PhD, Lead Marketing Manager, Dow Performance Silicones, Dow

Since year's silicones are widely used in transportation assembly (OEMs and Tiers), and have met the required regulatory and EHS standards. With one of the industry's broadest portfolios of thermally conductive silicones, Dow Performance Silicones can meet needs ranging from standard to the most advanced applications.

12:05 Q&A

12:30 Networking Lunch

パックの技術

13:55 Chairperson's Remarks

Wenzel Prochazka, Battery Manager, Battery Benchmarking Program, AVL List GmbH

14:00 Smart Sensing for Future Batteries

Yue Guo, PhD, Project Manager, Deputy Head, Energy Innovation Centre, WMG, The University of Warwick

A more effective battery thermal and structural deformation monitoring system by applying distributed optical fibre sensing techniques has been proposed and demonstrated in this paper, to meet the challenge hindering the mass adoption of lithium-ion or more advanced chemistries in future battery applications.

14:20 ANSYS Simulation Tools for Battery Development

Rolf Reinelt, PhD, Senior Application Engineer, Application Engineering, ANSYS Germany

ANSYS battery tools range from 3D field simulation (in CFD) to Reduced Order Model (ROM) extraction to system simulation. In particular it is possible to calculate the distribution of ohmic and electrochemistry sources in the battery. This allows us to accurately predict the temperature distributions in the battery and to assess the performance and durability. In our presentation we will give an overview of the underlying techniques and comprehensive system simulation methods for electric drivetrain and battery development.

14:40 Optimizing and Qualifying New Electrolyte Designs Faster with Advanced Analytics

Tal Sholklapper, PhD, CEO, Voltaiq

As global automotive OEMs race to electrify their fleets, there's a need for new electrolytes to enable safer, higher energy density batteries. In this presentation we will discuss how companies are putting together the data infrastructure and analytics environment that enables them to support electrification of the global automotive market.

15:00 Q&A

15:15 Refreshment Break with Poster Viewing

ベンチマーキングとBMS

15:50 Chairperson's Remarks

Wenzel Prochazka, Battery Manager, Battery Benchmarking Program, AVL List GmbH

15:55 Homogeneity of Lithium Analysis in Lithium-Ion Batteries - A Study on Half Cells, Full Cells and Parallel Connected Cells of the Tesla Model S 85

Friedrich Hust, Chief Engineer, Modelling, Analytics and Lifetime Prediction, RWTH-Aachen, Institut fur Stromrichtertechnik und Elektrische Antriebe

In this work, the inhomogeneous distribution of lithium on the electrodes of lithium-ion batteries is assessed by analyzing the voltage response in half-cells, full-cells, and parallel connected cells. A set of experiments has been conducted ranging from differential voltage analysis to voltage relaxation measurements and electrochemical impedance spectroscopy. This submission summarizes the former stated experiments, derives and explains the theory of homogeneity of lithium distribution.

16:15 A Challenge of Reliable Circuit Protection in Automotive Applications

Liwu Wang, PhD, Director, Business Development, Sales & Marketing, AEM Components (USA), Inc.

16:35 Effective Battery Control Instead of Monitoring the Death of the Battery

Hans Harjung, CEO, e-moove GmbH

Monitoring and balancing is state-of-the-art in battery management (BMS) since decades. In fact, this means monitoring the death of the battery. Effective battery control (ebc) is controlling all cells according to their individual state-of-health (SoH) and aging parameters. This leads to a maximum lifetime and performance of the battery pack combined with highest safety.

16:55 Q&A

17:10 Welcome Reception with Poster Viewing

18:15 Dinner Tutorial Check-In*

20:30 Close of Day

1月29日(火)

7:30 Symposium Registration and Morning Coffee

パックの技術 (続き)

8:30 Chairperson's Opening Remarks

Uwe Wiedemann, PhD, Managing Director, Munich Electrification GmbH

8:35 xEV Batteries on the Market - AVL Series Battery Benchmarking

Uwe Wiedemann, PhD, Managing Director, Munich Electrification GmbH

8:55 Development of Cutting Edge Battery Packs Using Next-Generation Cell Chemistries

Wasim Sarwar, PhD, Senior Battery Systems Engineer, Williams Advanced Engineering

Williams Advanced Engineering is focused on the development of the world's most power-dense and energy-dense batteries through the advancement and implementation of next-generation cell chemistries. This talk will explain how the design, monitoring and control of battery systems will evolve as we shift from typical transition-metal oxide, graphite + SiOx li-ion cells, to next-generation cells (Si-dominant anode & Semi-Solid-State Systems).

9:15 High Power and Safe Li-Metal Batteries Part II: The Forgotten Concept of Three-Phase Boundary

Slobodan Petrovic, PhD, Professor, XNRGI

The power loss in lithium batteries comes partially from poor electronic conduction and limited active surface area. A new electrode consisting of porous structure and silicon collector is used to enable effective and high-area three-phase boundary between active mass, electrolyte and electronic conductor.

セルの技術

9:35 Digitalization as a Game Changer for Battery Cell and Battery Production

Kai Peter Birke, PhD, Electrical Engineering, University of Stuttgart

Many so-called developments in the field of Li-Ion battery cells and batteries still rely purely on trial and error. The reason is that some currently present battery cell production methods are extremely challenging to digitalize. Both new and modified production methods as well as digitalization can change the game and tremendously improve high volume production. However, digitalization counts on measurable values as well as a constant and optimized production flow. We will report and highlight examples of improving battery cell production by digitalization as well as sophisticated production flows.

9:55 Q&A

10:10 Grand Opening Coffee Break with Exhibit & Poster Viewing

11:00 Chairperson's Remarks

Bob Spotnitz, PhD, President, Battery Design LLC

11:05 Roll-To-Roll Pre-Lithiation for Lithium Ion Battery Anodes

Jan Ronsmans, Technology Manager, Emerging Technologies, JSR Micro NV

This presentation will explain a new way for lithiation of lithium ion battery anodes. This method that can result in significant battery performance improvements and its applicability to an industrial mass manufacturing process is already demonstrated. The roll-to-roll pre-lithiation technique can be applied to a wide variety of anode materials and offers opportunities to reduce lithium ion battery manufacturing cost, such as excess loading of cathode due to low first-cycle efficiency of anode.

11:25 Next Generation of Primed Al/Cu Foils to Support the Battery Market Evolution

Thierry Dagron, Business Development Director, ARMOR Films for Batteries, ARMOR

In order to increase the energy density and cope with supply chain and safety regulations, most of the battery manufacturers look to develop nickel-rich cathodes, silicone-based anodes, higher voltages, water-based processes, etc. With such changes, new technical issues may occur at the interface between the electrode and the current collector. We demonstrate how primed current collectors (Al/Cu foils with a protective and conductive coating) solve these problems. ARMOR has developed specific primed Al/Cu foils for these new electro-chemistries. Benefits are longer cycle life, increased safety, fast charging, high power and energy density.

11:45 Continuous Mixing Process for LIB Electrode Slurries Contributes to Cost-Effective Cell Manufacturing

Philipp Stossel, PhD, Technologist Battery Solutions, Grinding & Dispersing, Buhler AG

The present production methods for lithium-ion battery (LIB) electrode slurries are largely based on batch processes. However, for the expected LIB market growth, especially in the automotive industry, these methods will no longer fulfill the requirements of the industry. Therefore, Buhler has developed a novel process based on a twin-screw mixer for fully continuous electrode slurry production. This process increases productivity per mixing line and eliminates batch-to-batch variations.

12:05 New Approaches in Battery Cell Production - From Standardization to Flexible and Agile Production Systems

Jurgen Fleischer, PhD, Manager, Machines, Equipment and Process Automation, Karlsruhe Institute of Technology

12:25 Q&A

12:40 Networking Lunch

13:55 Dessert Break with Exhibit & Poster Viewing

急速充電

14:40 Chairperson's Remarks

Kevin Konecky, Battery Systems Consultant, Total Battery Consulting, Inc.

14:45 xEV Industry Trends of Charging & Battery Systems

Kevin Konecky, Battery Systems Consultant, Total Battery Consulting, Inc.

Lithium-ion battery systems are an enabling technology in the propagation of xEVs with longer range and higher-energy-density batteries. Further enabling public acceptance are convenient and time-effective charging options. This presentation will review many xEVs currently in production and discuss trends and diversity in the subsystem design choices that were implemented in each production system including charge capabilities. Different charging protocols and standards across the globe will be discussed with trends analyzed, as well as improvements to user convenience including faster DC-charging and wireless charging.

15:05 Charge Fast but Don't Plate - How Validated Battery Models Can Solve the Dilemma

Michael Schoenleber, PhD, Co-Founder & CEO, Research & Development, Batemo GmbH

We will show that development time and effort can be drastically decreased by instead physically modelling a Lithium-Ion cell, proving the validity of the model in the whole operational range and subsequently using the model-predicted anode potential to investigate under which conditions Lithium-plating will start to occur. We will further show from that how charging strategies can be derived, that charge the battery truly as fast as possible while still avoiding Lithium-plating.

15:25 Presentation to be Announced

Peter Pichler, PhD, Manager, Samsung SDI Battery Systems

15:45 Electrical Parameters and Kinetics of Constrained Li-Ion Pouch Cells

Jan Singer, Electrical Energy Storage Systems, Institute for Photovoltaics, University of Stuttgart

Constraining Li-Ion pouch cells extends their cycling lifetime. The literature reports mechanical defects like delamination of the active material layers and localized deformation of the separator as well as surface film coverages on the anode as effects affecting the aging. Appling a light stack pressure on the electrodes housing helps to prevent the layer delamination. However, too high stack pressure accelerates the cyclic ageing due to enhanced delamination. In the first part of our presentation, we discuss the electrical parameters like internal cell resistances, usable capacity, coulombic and energy efficiency of constrained Lithium-ion pouch cells at different temperatures. The second part of the presentation provides the interfaces kinetics of constrained Lithium-ion pouch cells. We discuss tracking systems for battery stacks and look beyond possibilities for fast charging concepts using these tracking systems based on the electrical parameters and the kinetics of constrained Li-ion pouch cells.

16:05 Q&A

16:25 Networking Reception with Exhibit & Poster Viewing (Sponsorship Opportunity Available)

17:25 Dinner Tutorial Check-In*

17:25 Close of Day

 

 


Choose your language
Traditional Chinese
Simplified Chinese
Korean
English


更新通知サービス

カタログ (PDF) ダウンロード カタログ(PDF)


Platinum Sponsor

Solvay_horizontal

Gold Sponsors

AEM 

Arkema  

Denka

DOW Corning

Enevate

Haldor Topsoe

Maccor

PPG

Guangzhou-Tinci

voltaiq logo


RC Chemistry Banner NEW


Raw Materials


Engineering


Lead Based


H&E Vehicles


Public EV


Download 2017 Infographic

Download 2017 Infographic

 


メール配信サービス
エネルギー
関連の会議一覧