- Attend monthly project reviews
- Receive monthly interim reports
- Provide input into the project execution, including tests performed
- Includes 1 year of Megawatt-level Soteria BIG access for new members, or $1,000 credit towards existing membership
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Participant-level access to the Soteria Consortium E-Bike Best Practices Project -
Sponsor-level access to the Soteria Consortium E-Bike Best Practices Project- Listed as a Sponsor on the website and the final report
- Attend monthly project reviews
- Receive monthly interim-reports
- Provide input into the project execution, including tests performed
- Given a comment period after the reports are produced to provide input and improve reports before publication
- Includes 1 year of Megawatt-level Soteria BIG access for new members, or $2,000 credit towards existing membership
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This mini-certificate explains how a lithium-ion cell can be designed, sized, and produced for a specific capacity and energy. The key steps in the selection and production of the main components of the cell, i.e. electrodes, separator, and electrolyte, are discussed. The slurry formulation, mixing, coating, drying, calendaring, cutting, stacking, electrolyte formulation/injection, sealing/packing, and formation cycles are detailed both in terms of machineries and the processing parameters. -
This certificate introduces the most promising battery storage technologies and how they can affect the future of the transportation and power sectors. -
This certificate has been designed as an introduction to the integration and regulation of different energy systems. You will learn how energy vectors – fuels, electricity, and heating – interact and how to find added value at the interfaces between them. You’ll also build insights into the ways in which energy systems connect to other infrastructures, such as data networks, water, and transportation systems. And you will learn about how consumer psychology and society have a role in building a more sustainable, reliable, and cost-effective energy system. -
This certificate gives you unparalleled insight into the fundamentals of power systems, from direct to alternating current, active to reactive power, and more. You will explore frequency control, how active demand and storage can support the system, and the future evolution of the electricity grid. And you will emerge with a rock-solid understanding of the key issues at play. -
This mini-certificate provides an understanding on how the future transportation sector will impact the energy system both by putting stress on the electricity grid and by delivering valuable new services to the grid. Participants learn to make a realistic estimation of when our mobility system could go electric and which obstacles need to be tackled first. -
This certificate explores the implications of the evolution of our power system into decentralized, digitalized and secure power exchange platforms which are more sustainable, cost efficient and end-user focused. -
This certificate provides fundamental knowledge and state-of-the-art insights into battery technologies. Participants will get an introduction into the importance of batteries as a tool for energy storage, they will explore the main components and parameters that characterize a battery, and will dive deeper into the electrochemical phenomena that lie behind battery operation. Then, they will get a concise view of the different currently available battery technologies. Finally, they will be able to take a peek at emerging technologies that could be game-changers for the battery panorama. -
This mini-certificate focuses on the next generation electrolytes for Li-ion and Lithium metal batteries, the solid electrolytes, explaining why the shift to a solid electrolyte is necessary, which types of solid electrolytes exist, how they work and their specific features and benefits. -
This course introduces essential safety aspects of battery manufacturing, testing, storage, handling, and disposal. It covers administrative and engineering controls, risks and hazards, mitigation, and safety compliance across all phases of the battery lifecycle. Participants will learn to recognize appropriate safety measures, use personal protective equipment (PPE) effectively, and identify key regulations to maintain safety standards and compliance. In addition, emphasis is given to the importance of personal responsibility for safety at all levels of the workplace and throughout the battery lifecycle. -
This certificate extract insights from the energy big data to boost your business and create value added services. Participants learn how to develop and implement data science projects in energy businesses. Participants also evaluate the implications, challenges, and benefits of implementing data science projects in an energy company; apply lessons learned from real-life business cases in which data science was applied to energy big data; and supervise the development and implementation of a data science project to create new value with the available data.
