Manufacturing

Showing 11–20 of 22 results

  • Placeholder

    Battery Ageing – How Modeling is Used to Predict Battery Life

    Battery modeling and simulation makes it possible to analyze multiple operating conditions and design parameters for batteries and other electrochemical systems and processes. By developing mathematical models you can begin to understand the interaction of electrochemical and chemical processes in the battery and how these processes affect the performance and life of the battery.

    In this presentation, we will take a look at the benefits of modeling and simulation in the design, selection, and operation of a lithium-ion battery. We will especially take a look at how modeling can be used together with testing. These results provide manufacturers and application experts with the data to not only predict battery life but to analyze the implications of design parameters and operating conditions to better understand the limitation of the battery.

    This webinar will focus on the following key topics:

    • Benefits of modeling and simulations in the design, selection, and operation of a lithium-ion battery
    • Implications of design parameters and operating conditions with respect to experimental observations of battery performance, aging, and battery safety
    • How battery modeling can be used together with testing

     Presenter

    Tom O’Hara – Global Business Manager, Intertek

    Tom O’Hara is the global business manager / advisory services for Intertek’s energy storage programs. Aside from his consulting role, Tom supports U.S. and European marketing and sales efforts and APAC CTIA certification efforts. As a 30-year veteran of the battery technology field, Tom has worked in Energizer Battery’s R&D sector and consulted with several start-up battery companies. He is also the co-inventor of the world’s first successful mercury-free zinc air button cell and holds seven U.S. patents. He obtained both a B.S. and M.S. in chemistry from Wake Forest University in North Carolina.

    Buy Now
  • Placeholder

    Electric Vehicle and Hybrid Sales and Market Prospects Through 2020 – It’s Not What “They” Say

    Some industry observers have proclaimed that the electric vehicle market in the U.S. is failing. While overall sales have declined somewhat in recent months, this view is simplistic and short-sighted. A number of key products are at the end of their life cycle, with new versions on the way, and a variety of all-new products are coming. Strength in trucks and crossovers currently works against sales of these vehicles, but that will also change going forward.

    The increase in product offerings is led by a number of factors including consumer interest, regulatory requirements and government incentives in the U.S. and elsewhere, technology and cost improvements, and an interest by various automakers in making a corporate statement.

    The role of dealers has been a problem that has received little attention. There are methods to address this issue, but they are often not utilized.

    This webinar will focus on the following key topics:

    • Current Issues Affecting Sales
    • Product Actions and Sales Forecast by Vehicle Type – Micro Hybrids, Mild Hybrids, Regular Hybrids, Plug In Hybrids, Battery Electrics, and Fuel Cells
    • Key Trends by Vehicle Type – Now & Going Forward
    • Importance of Regulatory Policy Including California Zero Emission Vehicle Rules and EPA/NHTSA Midterm Review
    • Various Automakers Have Very Different Strategies to Electrification

    Presenter

    Alan Baum – Principal, Baum & Associates

    Alan Baum formed Baum & Associates in August 2009. He has a long record of analyzing the impact of alternative fuel vehicles as well as advanced technologies in internal combustion engines that provide improved fuel economy. Alan has been a contributor to a number of studies in this area including “Driving Growth: How Clean Cars and Climate Policy Can Create Jobs” and other projects analyzing the impact of fuel saving technologies on the auto industry. Since the 1980s, Alan has produced a detailed automotive production forecast and provided analysis of the automotive and medium- & heavy-duty truck markets.

    Buy Now
  • Placeholder

    Beyond Electrochemical Analysis – 2D to 4D Correlation of Microstructure and Chemistry in Li-ion Batteries

    Single imaging instruments as well as correlative microscopy workflows have demonstrated some unique abilities to support LIB research beyond electrochemical analysis methods. Light microscopy delivers insights about ablation effects & phase orientations in the active material, while scanning electron microscopy (SEM) reveals information about aging effects, nanometer cracks & the composition of the active material. Combining SEM with in-situ Raman spectroscopy extends the traditional SEM capabilities to organic and inorganic material identification. X-ray microscopy, furthermore, delivers 3D non-destructive imaging of full battery packs and localized high-resolution information, thus allowing the identification of regions of interest within the battery material volume. This presentation will demonstrate the application of these techniques to Li-ion battery research, including examples on anode, cathode, binder, and separator materials.

    This webinar will focus on the following key topics:

    • Introduction to available microscopic investigation techniques
    for Li-ion battery research:
    – Light Microscopy
    – Scanning Electron Microscopy
    – X-ray Microscopy
    – Raman Spectroscopy
    • Review of recent battery imaging studies in published literature
    • Case studies on using correlative microscopy to characterize battery performance & failure mechanisms

    Presenter
    Stefanie Freitag – Market Segment Manager at Carl Zeiss

    Stefanie is Market Segment Manager in Materials Research at Carl Zeiss Microscopy in Munich. She holds a Diploma in Engineering Physics, gained first work experiences in a nuclear fusion reactor with a pioneering concept in Greifswald, then worked 3 years in the solar industry in Ulm & Hsinchu, Taiwan. In her current position she analyzes and defines new microscopic solutions for specific materials segments including light microscopy, electron microscopy, x-ray microscopy and chemical methods like Raman spectroscopy.

    Buy Now
  • Placeholder

    Preventing Thermal Runaway in Energy Storage Systems (ESS)

    From air transportation to electric vehicles and most recently “Hover Boards”, our industry is painfully aware of the over-discharge malfunctions associated with high-energy lithium-ion batteries, yet according to recent studies, nearly 70% of all Energy Storage Systems currently deployed are lithium-ion. Avoiding the pitfalls of utilizing greater energy density in larger installations is what will be discussed. Michelle will walk through the recent innovations from materials and process tracking in battery manufacturing to comprehensive control of cells in a fully deployed system. Incorporating lessons learned from recent failure investigations by the NTSB and FAA as well as new DoE mandates, Michelle will discuss how to achieve and in some areas surpass the new emerging safety certifications for a multi-megawatt energy storage system.

    This webinar will focus on the following key topics:

    • Making batteries safe or making safe batteries? (control & mitigation)
    • Cell manufacture tracking, certification and response
    – NTSB & DoE analysis and current situation
    • Incorporating advanced battery management systems (BMS)
    – Active cell dynamic balancing
    – Cell replacement (hot-swapping)
    – System reconfiguration
    – Energy density scalability

    Presenter
    Michelle Klassen – VP of Business Development at Pathion, Inc.

    Michelle Klassen is VP of Business Development for PATHION Inc. which manufactures high-performance, safe, and reliable Energy Storage Systems (ESS) for commercial markets ranging from 86 kilowatt-hours in stand-alone systems to over 1 megawatt-hour in containerized units. Prior to PATHION, as Vice President at ZeroBase Energy, she led the design and implementation of power systems and micro-grids for customers, including the US Department of Defense, Kenya Ministry of Energy and the L.A. Department of Water and Power.

    Buy Now
  • Placeholder

    Lithium Ion Capacitors – Combining Energy with Power

    FREE Webinar – JSR Micro, Inc. is a proud sponsor of this event.

    Lithium Ion Capacitors (LIC) are hybrids of electric double-layer capacitors (EDLCs) and lithium ion batteries (LIB). Combining the reversible non-Faradaic cathode from an EDLC and the reversible Faradaic anode from an LIB results in an ultra or super capacitor with significantly increased energy density, improved float performance and low self-discharge rates. Avoiding the lithium metal oxide cathodes from LIB’s improves the inherent safety and eliminates Cobalt content, however still combines aspects of energy & power of both cell types. The Faradaic intercalation/deintercalation reactions at the anode are capable of generating a significant amount of charge, while the non-Faradaic electrostatic storage of the electrical energy formed at the interface of the electrode and the electrolyte, known as an electric double layer, results in fast charge and discharge capabilities for hundreds of thousands, if not millions of cycles.

    This webinar will focus on the following key topics:

    • What is an LIC? Technology Introduction
    • Key Benefits
    • Safety
    • EDLC vs LIC
    • Applications

    Presenter

    Jeff Myron – Energy Solutions Program Manager at JSR Micro, Inc.

    Since 2011 Jeff has been responsible for business development in North America of JSR group’s environmental energy products including, lithium ion capacitors (LIC) and aqueous battery binders. Jeff joined JSR in 2006 as a Technical Sales Specialist for advanced photoresists utilized in IC manufacturing. Immediately prior to JSR, Jeff worked at Molecular Imprints developing the commercial infrastructure for next generation nano imprint lithography templates. Prior to joining Molecular Imprints, he held various engineering, engineering management & product management positions at Motorola, DuPont Photomask & Brewer Science. Jeff earned a bachelor’s degree in chemistry from Illinois State University in 1990 and an MBA from Webster University in 2001.

    Buy Now
  • Placeholder

    Addressing Engineering Challenges of Vehicle Electrification With Model-Based Systems Engineering

    The concern for the environment and energy savings is changing the way we think about transportation. Wide spreading vehicle electrification – not only through Electric Vehicles (EV) and Hybrid Electric Vehicles (HEV), but also electrification in conventional vehicles – has become a common trend of the industry and the upcoming battlefield to install new leading positions. Accounting for costs, reliability, safety, performance, customer acceptance, infrastructure and design process makes manufacturers and suppliers facing new engineering challenges that need to be addressed in a very short time-frame.

    Technologies used for electrification are causing a growing complexity in systems and components, and producing vehicles designed right, first, at reasonable costs make the implementation of collaborative mechatronic system simulation a decisive and mandatory step in the engineering process.

    This webinar will focus on the following key topics:

    • What are the global trends and challenges of vehicle electrification?
    • What are the available technologies for reducing CO2 emissions?
    • What are the benefits of stop & start and regenerative braking systems?
    • How to characterize battery and optimize its thermal management?
    • How do energy storage architectures impact battery aging?

    Presenter

    Himanshu Kalra – Application Engineer, Siemens

    Himanshu Kalra is an Application Engineer with Siemens PLM Software. He graduated with his Masters of Science degree in Mechanical Engineering from Michigan Tech University and his Bachelors in Mechanical Engineering from Institute of Management and Technology, India. He works with Model Based Systems Engineering (MBSE) Simulation tools to model and analyze vehicle electrification strategies, including thermal management, battery characterization and the impacts on battery ageing. He also has an experience working with technologies used for reducing emissions on internal combustion engines.

    Buy Now
  • Placeholder

    Characterizing Performance and Determining Reliability of Batteries for Medical Applications

    As the number and variety of battery powered devices used in medical applications grows, batteries are playing an ever more important role in determining the reliability of these devices. Unlike the portable consumer electronics industry where high unit volumes can justify the design and manufacturing of custom batteries, the medical device industry must often utilize standard, off-the-shelf batteries for their devices. Even when the production of custom batteries is justified, few battery manufacturers appreciate the level of quality and reliability that is required by the medical device industry.

    In this webinar we will look at how to quantify the performance characteristics of batteries in a way that allows direct comparisons to be made between various vendors, form factors and chemistries. Case studies will be presented to demonstrate common mistakes made in battery selection and use, and methods for conducting accelerated aging studies will be discussed. When properly conducted, such aging studies can be used to identify potential reliability issues, monitor the manufacturing quality of the batteries and serve as a tool to aid in the selection and qualification of various battery vendors.

    This webinar will focus on the following key topics:

    • What do you need to know that is not on the specification sheets?
    • How do you make apples-to-apples performance comparisons between different battery types?
    • When is impedance and/or capacity matching important in multi-cell configurations?
    • How can quality be compared between vendors?
    • How can battery longevity be predicted in specific applications?

    Presenter

    Dr. Quinn C. Horn – Principal Engineer at Exponent, Inc.

    Dr. Quinn Horn has been with Exponent for ten years. He is also a Research Affiliate at the Massachusetts Institute of Technology, where he collaborates with researchers in the Electrochemical Energy Laboratory on projects related to electric vehicles and new gas diffusion electrodes for metal-air batteries and fuel cells.

    Buy Now
  • Placeholder

    Non-Destructive Testing: Insuring Safety, Reliability, and Reducing Cost of Li Batteries

    Non-destructive non-contact electromagnetic, ultrasonic, holographic interferometry, gas discharge visualization, and combined methods are innovative tools for successful coordination of stages of R&D, manufacturing, and applications of Li batteries. Deployment of automated non-destructive quality assurance technology at every stage of the manufacturing process will increase the reliability and safety of batteries, while lowering overall manufacturing costs.

    This webinar will focus on the following key topics:

    • Physical principles of the non-destructive & non-contact methods for evaluation and testing of Li batteries during production:
    – Initial materials, including nano-structured powders of electrode materials
    – Polymer and solid inorganic electrolytes
    – Properties of electrodes during coating, including the resistance of interface between current collectors and electrode mass
    – Multi-layered electrode structures, as Jelly roll dry electrode structure
    – Final product
    • Design of equipment for non-destructive testing
    • Examples of using the non-destructive methods in Li batteries, super-capacitors, solar cells, chemical industry, and other industries (example – evaluating the properties of the cement)
    • Benchmarking, and the market of application for non-destructive, non-contact testing

    Presenter
    Dr. Elena Shembel – Chairman & CEO at Enerize Corporation

    Dr. Shembel is co-inventor of more than 50 patents and patent applications worldwide, including 15 US Patents and 1 Great Britain patent during last 8 years in the areas of batteries, solar cells, fuel cells, and non-destructive methods of testing. She earned PhD in “Electrochemical processes for systems with porous matrices for space systems”, and degree of Doctor of Chemical Sciences at the FSU Academy of Sciences Institute of Electrochemistry, Moscow for her work in processes and optimization of lithium batteries.

    Buy Now
  • Placeholder

    Development and Testing of Electric Drives and Battery Management Systems

    Many types of hybrid and electric drive (E-Drive) control systems are being developed for platforms in several industries. These systems also use Battery Management Systems (BMS) to handle their demanding power needs. However, the development of these technologies brings increased system complexity, evident in the many platform variants and control algorithms of various electronic control units (ECUs).

    dSPACE provides comprehensive solutions for E-Drive or BMS development, from providing proper hardware I/O interfaces for prototyping/testing these applications to real-time models for simulation of these controlled systems. There is also the need for consideration of power and safety requirements and precision of the simulation or control capability.

    This presentation will cover RCP and HIL systems and models for the development and validation of E-Drive and BMS control systems. Specific implementation techniques for model processing and interfaces in real-time along with critical power interface and electrical hardware functionality will be shown.

    This webinar will focus on the following key topics:

    • Real-time Simulation Models for Electric Motors and Battery Systems
    • Rapid Prototyping hardware for E-Drive and BMS Development
    • Hardware-in-the-Loop (HIL) Simulators for testing E-Drive/BMS Systems

    Presenter
    Jace Allen – Lead Technical Specialist – Simulation & Test Systems at dSPACE Inc.

    Jace is the Lead Technical Specialist for Simulation and Test Systems at dSPACE, Inc, having designed and managed over 200 Hardware-in-the-Loop (HIL) system implementations for various customers. In the past 20 years he has handled many diverse modeling, controls, and simulation test applications in the Automotive, Commercial Vehicle, and Aerospace areas. His background includes modeling, simulation, and product development for vehicle powertrain, safety/security systems and also software development with embedded controls tools. He is a member of SAE, IEEE, and AIAA and has published 10 SAE Papers.

    Buy Now
  • Placeholder

    Update on Zinc Hybrid Cathode Battery Technology: Lessons Learned from Demo Projects with Major Utilities in US & Europe

    With no economical means to store energy, the utility distribution network has typically been overbuilt and continually expanded to serve peak demand, though only a fraction of that infrastructure is used on an average day.

    Working closely with utility partners like AEP and Con Edison, Eos Energy Storage has evaluated the economics of battery storage on the distribution system, with compelling results. Using first-hand knowledge of system costs and specifications, it was found that a utility-owned battery system can break even with a conventional T&D upgrade of ~$5M, or less when monetizing available market revenues.

    In this webinar, Eos will share an update on commercialization of its zinc hybrid cathode battery technology and share lessons learned from deployments with major utilities in the US and Europe, from initial business case analysis to commissioning a turnkey product.

    This webinar will focus on the following key topics:

    • Discuss how energy storage can be leveraged as a utility distribution asset and market resource
    • Share Eos’s experience in deploying energy storage systems at utility sites in the US and Europe
    • Update on performance and path to commercialization for novel zinc hybrid cathode battery technology

    Presenter

    Philippe Bouchard – Vice President, Business Development at Eos Energy Storage

    Philippe joined Eos after 5 years of in-depth experience leading emerging technology and regulatory initiatives within the utility energy industry. While working previously within Southern California Edison’s Advanced Technology Organization, Philippe co-authored SCE’s Smart Grid Deployment Plan and managed a $3 million portfolio of diversified R&D and technology evaluation projects. Philippe brings an interdisciplinary background in chemistry and environmental sciences, and graduated with a B.A. from Pomona College.

    Buy Now