EV Battery Design and Charger Technology – Understand The Applications Of Sustainable Mobility

Description

In the rapidly evolving landscape of transportation and energy, Electric Vehicles (EVs) infrastructure have emerged as a transformative force, redefining the way we envision and interact with mobility. At the heart of this revolution lies the intricate interplay between EV Battery Design and Charger Technology, two pivotal components shaping the efficiency, range, and sustainability of whole electric vehicle transportation.

EV Battery Design stands as the cornerstone of electric mobility, influencing the performance and viability of electric vehicles. The relentless pursuit of energy density, durability, and cost-effectiveness has propelled battery technology into the forefront of innovation. From advancements in lithium-ion cells to the exploration of emerging technologies like solid-state batteries, the quest for a perfect balance between energy storage capacity and practical application continues to drive research and development.

Complementing the strides in battery design, charger technology plays a pivotal role in shaping the user experience and the widespread adoption of electric vehicles. The evolution of charging infrastructure, ranging from home chargers to high-speed public charging stations, reflects the commitment to ensure electric mobility are accessible and convenient. Moreover, smart charging solutions, bidirectional charging capabilities, and wireless charging technologies are ushering in a new era of efficiency, ease, and sustainability in the charging ecosystem.

This exploration into EV Battery Design and Charger Technology delves into the core innovations propelling the electric vehicle industry forward. From the intricacies of battery chemistries to the engineering marvels behind cutting-edge charging stations, this field is a dynamic fusion of science, engineering, and environmental consciousness. As we navigate this electrified future, understanding the nuances of EV Battery Design and Charger Technology becomes essential for harnessing the full potential of sustainable transportation.

This course will be delivered face-to-face over 5-day sessions, comprising of 8 hours per day, 1 hour lunch and 2 breaks of 15 minutes per day. Course Duration: 40 hours in total, 40 CPD points. Maximum number of participants: 25. This course can also be delivered through Virtual Inspector Led Training.

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TRAINING OBJECTIVES

By the end of this 5 days training course, participants will be able to:

TARGET AUDIENCE

COURSE LEVEL

TRAINING METHODS

The PowerPoint presentations utilised during the course will be distributed to participants upon the conclusion of each session. Additionally, there will be assessments integrated into the curriculum and facilitate discussions on various articles, including case studies and the utilization of computer modeling for simulation purposes. Group discussions pertaining to the day’s topic will be incorporated into the course structure.

TRAINER

Your expert instructor is a highly accomplished battery technologist and electrochemist with over 45 years of experience spanning research, development, manufacturing, applications engineering, and business development across the battery industry. He obtained his undergraduate degree in Chemistry from Lowell Technological Institute (now University of Massachusetts Lowell). He went on to complete a master’s degree in physical chemistry from Carleton University and a PhD in Electrochemistry from the University of Ottawa in Canada. His doctoral research focused on interfacial kinetics of lithium intercalation in titanium-based cathodes – among the first cathodes used in the early days of understanding the lithium-ion reaction mechanisms.

 In the early 1980s, he pioneered some of the earliest prototype designs for lithium-ion batteries. He is credited with building the first-ever manufactured cylindrical lithium-ion cells in 1986. Over the next several years, he advanced lithium battery chemistries for military, telecommunications, and biomedical applications. In 1991, he joined Moli Energy as Director of Research and later Director of Product Development. Moli Energy commercialised some of the earliest lithium-ion batteries globally. Your expert instructor spearheaded technology transfer to enable manufacturing scale-up and product development around lithium-ion cells and packs. He also redesigned factory layouts and cell architectures to enable mass production.

From 1994 to 1997, as Chief Scientist at SelfCharge Inc., he managed the design and integration of smart batteries and rapid charging systems, yielding patented technologies. Since 1994 until today, he has advising global companies across e-mobility, consumer electronics, grid electricity storage, and medical batteries. He holds twenty patents and has co-edited two books on lithium battery technological advances. He is presently writing a book on the Sustainability of the Lithium-ion Battery Industry.

Beyond his corporate work, he has chaired a National Science Foundation advisory committee for bioenergy research and spearheaded the creation of the Nanotechnology Division within the Electrochemical Society. The Electrochemical Society has created an award with your expert instructor name in conjunction with The Energy Technology Division Award for Sustainable Energy Technologies. Over his outstanding career, he has advanced battery chemistries from fundamental concepts to practical real-world systems. As an inventor, educator, and advisor, he has helped build a cleaner, more electrified world empowered by next-generation storage solutions. Even today, he explores innovations from solid-state electrolytes to magnetic characterization techniques, demonstrating his enduring curiosity.

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POST TRAINING COACHING SUPPORT (OPTIONAL)

To further optimise your learning experience from our courses, we also offer individualized “One to One” coaching support for 2 hours post training. We can help improve your competence in your chosen area of interest, based on your learning needs and available hours. This is a great opportunity to improve your capability and confidence in a particular area of expertise. It will be delivered over a secure video conference call by one of our senior trainers. They will work with you to create a tailor-made coaching program that will help you achieve your goals faster.
Request for further information post training support and fees applicable