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FREE Webinar – Voltaiq is a proud sponsor of this event.
Launching a new EV platform is a high-stakes game, where any problems encountered during battery pack development can severely jeopardize target ship dates. Developing an EV battery pack is a lengthy process comprising multiple interconnected stages that span from choosing the right cell to integrating the full pack into the vehicle. Each of these stages is complex and involves function-specific battery testing and analysis. This webinar will walk through each stage of EV pack development in detail, and will highlight how an integrated Battery Intelligence platform can drive an on-time launch and ensure quality and traceability, while minimizing risk throughout the vehicle lifecycle.
This webinar will focus on the following key topics:
• Discuss how the battery is the most complex and costly component in the development of an EV, and is the component most likely to delay launch
• Review the complex multi-step process required to develop an EV pack and demystify pack development from cell selection through vehicle integration
• Showcase an interactive demonstration of key analytics
Presenter
Dr. Eli Leland – CTO at Voltaiq
Dr. Eli Leland is a Voltaiq co-founder and Chief Technical Officer, responsible for the company’s Product and Engineering functions. Prior to Voltaiq, Eli worked at the CUNY Energy Institute as lead engineer on an ARPA-E energy storage and power conversion research project. Before CUNY, Dr. Leland worked at Trilogy Software, where he successfully deployed large-scale enterprise software systems to Fortune 500 companies. He was a Mirzayan Policy Fellow in Energy and Environmental Systems at the National Academies in Washington, DC. Eli has an MS and PhD in Mechanical Engineering from UC Berkeley, and a BSE in Mechanical and Aerospace Engineering from Princeton.
Voltaiq is a proud sponsor of this event.
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BIS Tutorial Course 1/3: Introducing Battery Intelligence Systems (BIS)
FREE Webinar – Voltaiq is a proud sponsor of this event.
While the industry is familiar with the battery and its BMS (battery management system), very few are aware of the critical need for a missing third layer, the Battery Intelligence System (BIS) needed to enable the leap in battery yield, energy density, and lifetime the industry is calling for.
Battery Intelligence Systems are needed to leverage the latent value sitting in data that companies are collecting today, including but not limited to: data generated in battery factories in Asia, product OEMs around the globe, and ‘data lakes’ collecting data from systems in the field.
Your organization already has the building blocks to enable BIS. In this webinar we’ll show you the benefits of unlocking the value of your battery data.
This webinar will focus on the following key topics:
• The need for Battery Intelligence
• State of the industry: insufficient resources to meet aggressive electrification goals
• State of data today: “Treating it like a mushroom and watching it grow”
• Automation of standard analyses
• Traceability with Battery Digital TwinsPresenter
Dr. Tal Sholklapper – CEO at VoltaiqDr. Tal Sholklapper is the CEO of Voltaiq. Before co-founding Voltaiq, Dr. Sholklapper was the lead engineer on a DOE ARPA-E funded project at the CUNY Energy Institute, developing an ultra-low-cost grid-scale battery. Prior to his work at CUNY, Dr. Sholklapper co-founded Point Source Power, a low-cost fuel-cell startup based on technology he developed while at Lawrence Berkeley National Laboratory. Dr. Sholklapper has a BS in Physics and Applied Mathematics and an MS and PhD in Materials Science and Engineering from UC Berkeley, where he holds the honor of completing the fastest engineering PhD in two and a half years.
Voltaiq is a proud sponsor of this event.
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Energy Storage Potential and Opportunities in India
India has aggressive targets for shifting to renewable energy, which at present is un-scheduled, and stresses the energy systems. One of the important means to meet these challenges is use of energy storage technologies. With launch of Smart Grids and Electric Vehicles missions, and new programs for on-site solar energy and rural micro-grids, energy storage has become a crucial component of energy strategy for India. This presentation will mainly focus on opportunities and potential of energy storage in India.
This webinar will focus on the following key topics:
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Akshay Ahuja – Business Analyst (India Smart Grid Forum)
Akshay is currently working as Business Analyst with India Smart Grid Forum, a public-private partnership initiative of the Ministry of Power, Govt. of India. At ISGF, he is working closely with two working groups namely “Policy and Regulation” and “Pilots and Business Models”.
He is also part of modelling team working with Planning Commission of India on energy scenario exercise by putting all relevant numbers together into a calculator called “India Energy Security Scenarios, 2047”, for which he has worked on four themes – Electricity Import/export, Electrical Energy Storage, Carbon Capture and Storage, and Transmission & Distribution (T&D) losses and currently is also working on version 2 of the tool. He is also a contributor to India Smart Grid Bulletin, a monthly newsletter by ISGF.
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Solid Electrolytes and Bulk Scale Solid-State Batteries
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Travis Thompson – Post Doctorate Research Fellow at University of Michigan
Travis received his B.S. in Mechanical Engineering in 2010 from California State Polytechnic University, Pomona, and his PhD in Materials Science at Michigan State University in 2014. His graduate work has focused on synthesis & processing of materials for direct thermal-to-electric energy conversion & storage. This includes ambient drying of silica aerogels, processing of oxide based thermoelectric materials, & electrochemical characterization of ceramic solid electrolytes for advanced batteries. He is now a Research Fellow at The University of Michigan and is exploring commercialization of Solid-State Batteries from his graduate work.
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Battery Safety Assessment: From Cell to Pack Level
FREE Webinar – PlugVolt is a proud sponsor of this event.
For fast and reliable battery pack development, a virtual assessment of battery safety via simulation is presented. The methodology, from single cell abuse testing up to battery pack simulation of crash and crush loads, is discussed. Cell tests that provide detailed understanding of the mechanical behavior of single Li-ion cells are used to improve battery stiffness and to optimize battery pack design.
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Jeremy Gaume – Project Manager, Analysis of Engineering and Technology Powertrain Systems at AVL GmbHJeremy Gaume graduated from the University of Technology of Belfort-Montbeliard (U.T.B.M.), France, with a Master Diploma in thermo-mechanical system modelling and optimization. He has 10 years’ of experience in the automotive field. Before joining AVL, he worked at Magna Steyr for CAE crash (passive safety) assessment. After joining AVL, he was appointed as a Project Manager for Analysis of Engineering and Technology Powertrain Systems. Jeremy is an expert on crash/safety simulation for batteries.
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