Entries by abee

Avesta Battery & Energy Engineering (ABEE)

Avesta Battery & Energy Engineering (ABEE)

WHO ARE WE?


OUR SERVICES


ABEE is a dynamic engineering company specialized in battery and energy technologies for automotive and stationary applications. Our expertise are involved in the battery system design, modelling (thermal & electrochemical), state-of-the-art battery manufacturing infrastructure, processing and prototyping, BMS & module assembly, extensive knowledge in artificial intelligence techniques & battery state estimations, validation & feasibility analysis related to advanced Li-ion and next generation solid-state battery technologies.

“ABEE is Working to Shape a Trustworthy Business that Better Serves to Industry with Our Technological Platform to Develop Next Generation Batteries”

“ABEE is Working to Shape a Trustworthy Business that Better Serves to Industry with Our Technological Platform to Develop Next Generation Batteries”

OUR Facilities


ABEE is supporting the industries in the development of tailored made solutions from battery materials to recycling for automotive and stationary applications through the development of dedicated multiscale simulation tools and functions integrated in various platforms.

Press release

Brussels, July 2nd, 2020. Avesta Battery and Energy Engineering (ABEE) has now entered an MoU with Center for SMART Energy Platform (CSTEP) and Electrochemical Energy Storage and Conversion Laboratory (EESC) at Kung Hee University (KHU). An agreement was reached between the CEO of ABEE, Prof. Dr. Noshin Omar and the Director of the lab, Prof. Dr. Chang Woo Lee to collaborate in the field of energy storage for material selection and upscaling activities.

Prof. Noshin Omar, CEO of ABEE, commented: “The joint forces of KHU and ABEE will benefit both the parties to fast track crucial research activities and decrease the time required to place specific products in the market.”

About ABEE:

Avesta Battery & Energy Engineering (ABEE) is a dynamic and specialized company in the field of battery and energy technologies for e-mobility and stationary applications located in Brussels, Belgium. (https://abeegroup.com/)

About KHU:

Kyung Hee University is a private university in South Korea with campuses in Seoul and Suwon. Founded in 1949, it is considered as one of the best universities in South Korea. (https://www.khu.ac.kr/)

About CSTEP/EESC:

The research team in CSTEP/EESC has been testing batteries for more than a decade, in both mobile and stationary applications, with special dedication to Na, Zn, and Li technologies. CSTEP/EESC has well-established infrastructure and facilities for physical, chemical and electrochemical characterization of materials used in energy storage devices.

Brussels, July 2nd, 2020. Avesta Battery and Energy Engineering (ABEE) has now entered an MoU with Center for SMART Energy Platform (CSTEP)

Brussels, July 2nd, 2020. Avesta Battery and Energy Engineering (ABEE) has now entered an MoU with Center for SMART Energy Platform (CSTEP) and Electrochemical Energy Storage and Conversion Laboratory (EESC) at Kung Hee University (KHU). An agreement was reached between the CEO of ABEE, Prof. Dr. Noshin Omar and the Director of the lab, Prof. […]

Battery Modeling Workshop

ABOUT THE WORKSHOP

Workshop focuses on modeling frameworks for battery technologies at multiple length scales coupled with thermal, electrochemical and lifetime models; This workshop will provide the participants with insight to varies types of modeling techniques and their application for process and cost optimization.

 

 Workshop is designed for

▪ New technology startups
▪ AI/ML enthusiasts
▪ Battery designers
▪ Energy storage/Power R&D engineers
▪ Energy storage supplier
▪ Academic researchers
▪ Automotive industry manager
▪ Other industry member

 

KEY BENEFITS 

 
▪ Introduction to key modeling techniques for battery applications
▪ Guidelines on model to design battery
▪ Learning process optimization through modeling
▪ Application of machine learning and artificial intelligence in battery technology
 

Contact

For any questions, contact us at contact@abeegroup.com

Registration deadline is 04/01/2021

Registration fee: Industrial: € 1,000 + VAT, Academic: € 750 + VAT, Online participation: € 500 + VAT

10% discount for two (2) group attendees. The number of participants is limited. The registration fee includes hard copy print out of all workshop presentations, lunch, refreshments and excludes dinner.

Registration is open through the following link

Program topics:

Technology overview – Cell design – Modelling techniques (Cell ↣ module ↣ pack) – Multiphysics & Thermal model – Data driven techniques – System modelling – Optimization – State of health – Hands-on.

Workshop Highlights
An opportunity to learn, extend your expertise and implement your knowledge to design novel battery models, to be safe and more efficient for next generation batteries.

Schedule          Day 1: Program agenda

8:30 – 8:45          Registration desk

8:45 – 9:00          Welcome note

9:00 – 9:45          Equivalent circuit model

9:45 – 10:30        Multi-physics model

10:30 – 10:45      Coffee break & networking

10:45 – 11:30      Lifetime modeling – Calendar fading and cycle fading

11:30 – 12:15      Extrapolation techniques and sensitivity analysis

12:15 – 1:00        Lunch

1:00 – 1:30          Introduction to software (Hands-on)

1:30 – 2:45          Building up an ECM model: Parameter extraction

2:45 – 3:00          Coffee break & networking

3:00 – 4:15          Battery lifetime model: State of health

4:15 – 4:45          Summary & conclusions

                              Day 2: Program agenda

8:30 – 8:45          Coffee & Refreshment

8:45 – 9:30          1D & 3D thermal modeling cell to module and pack level

9:30 – 10:30        Thermal management system modeling (active & passive cooling)

10:30 – 10:45      Coffee break & networking

10:45 – 11:30      Recent advances with data-driven approach

11:30 – 12:15      Material discovery for next-generation battery materials

12:15 – 1:00        Lunch

1:00 – 1:30          Introduction to software (Hands-on)

1:30 – 2:45          How to estimate battery performance by multiphysics model?

2:45 – 3:00          Coffee break & networking

3:00 – 4:15           How to optimize battery operating conditions by thermal model?

4:15 – 4:45           Wrap-up (Summary & conclusions)

Destination: Ransbeekstraat 310, 1120 Brussels 

Form Battery Modeling Workshop Registration


Battery Design Webinar

ABOUT THE Webinar

This webinar focuses on battery system design for electric vehicles including design methodologies and requirements, cell technologies, fast charging solutions, mechanical design solutions, battery swelling, thermal propagation and validation methodologies. This webinar will provide the participants, insights into battery design technologies and solutions for future electric vehicles.

The webinar will be organized on 29 June 2020 from 09:00 to 16:45

webinar is designed for

▪ Battery & energy storage users

▪ Cell makers & Pack assemblers

▪ Battery manufacturer

▪ Energy storage/power R&D engineers

▪ Automotive OEM  

▪ Executives and entrepreneurs

▪ Academic researchers

▪ Battery system design managers

▪ Battery plant managers & maintenance engineers

▪ Other industry members

KEY BENEFITS 

▪ Guidelines on how to design batteries

▪ Key innovation approaches for battery system design

▪ Fast charging solutions for electric vehicles

▪ Update/latest technology market trends in battery design

Contact

For any questions, contact us at contact@abeegroup.com

Registration deadline is 15/06/2020

Registration fee: Industrial: € 750 + VAT, Academic: € 550 + VAT

The number of participants is limited. The registration fee includes hard copy print out of all webinar presentations.

Program topics

  • Technology overview
  • Battery design
  • Cell technologies
  • Fast charging Mechanical design
  • Battery swelling
  • Thermal propagation
  • Design failures
  • Validation methodologies
  • Ways to design batteries
  • How far we are & What is the future ?

You can download the program via the following link: Battery System Design Webinar 2020

Schedule Program agenda
9:00 – 9:45 Introduction to battery system designs and requirements
9:45 – 10:30

Battery cell technologies and requirements:

▪ Battery cell technologies

▪ Future requirements and constraints

▪ Regulations

10:30 – 10:45 Break
10:45 – 11:30

Battery system design methodologies and solutions:

Cell-module-pack approach

Cell-pack approach

11:30 – 12:15 Fast charging solutions
12:15 – 13:00 Break
13:00 – 13:45 Mechanical design solutions
13:45 – 14:30 Battery swelling
14:30 – 14:45 Break
14:45 – 15:30 Thermal propagation
15:30 – 16:15

Validation methodologies: 

▪ Virtual validation

▪ Physical validation

16:15 – 16:45 Wrap-up (Summary & conclusions)

Form Battery Design Webinar Registration