Stanford Webinar: Battery Innovations to Fight Climate Change, Abbas El Gamal and Ram Rajagopal | Summary and Q&A

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August 30, 2019
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Stanford Online
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Stanford Webinar: Battery Innovations to Fight Climate Change, Abbas El Gamal and Ram Rajagopal

TL;DR

This comprehensive analysis explores the importance of battery systems in curbing carbon emissions, their role in transportation and grid services, and the need for a holistic and interdisciplinary approach to studying battery systems.

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Key Insights

  • 🔋 Battery systems are crucial in curbing carbon emissions from transportation and electricity generation.
  • 🖤 Existing courses on battery systems lack a holistic and interdisciplinary approach.
  • 😒 The PowerNet project focuses on coordinating resources in homes and farms to optimize energy use.
  • 🔋 Coordinating EV charging and addressing grid-scale storage challenges are important considerations for the future of battery systems.
  • 🔋 The growth of battery technology presents opportunities for innovation in cost reduction, safety, and improving power density and energy density.
  • 🔋 The course provides a systems-oriented perspective to understanding battery systems and their applications.

Transcript

it's my honor to introduce our two distinguished speakers today Havas of the maas this tachi america professor in the School of Engineering and professor in the Department of Electrical Engineering at Stanford he is also the recipient of numerous awards including the 2016 Richard W Hamming medal in the 2012 Claude e Shannon award his research spans... Read More

Questions & Answers

Q: How do high-capacity battery systems contribute to curbing carbon emissions?

High-capacity battery systems play a key role in curbing carbon emissions by enabling the electrification of transportation and incorporating renewable energy sources in the grid. This reduces dependence on fossil fuels and promotes cleaner energy practices.

Q: What are the main considerations in designing systems for coordinating resources in homes and buildings?

Designing systems for coordinating resources in homes and buildings requires accounting for cyber constraints, user preferences, and physical network constraints. Accurate resource models, including storage and EV charging, are crucial for effective coordination.

Q: How does the PowerNet project utilize the cloud to coordinate resources in the home?

The PowerNet project uses a home hub and cloud coordinator to optimize the use of resources in the home, such as storage, solar, and customer preferences. The cloud coordinator also facilitates resource coordination across multiple homes to achieve goals like peak shaving and automated responses to prices.

Q: How does the course cover battery systems in transportation and grid applications?

The course provides a systems approach to studying battery systems, covering topics such as battery materials, cell design, battery management systems, modeling, safety, and economics. It also explores applications in electric vehicles and grid storage.

Summary & Key Takeaways

  • Battery systems play a key role in curbing carbon emissions by electrifying transportation and addressing renewable energy variability in the grid.

  • Existing courses on battery systems lack a holistic, system-oriented approach, which prompted the development of this course.

  • The PowerNet project focuses on coordinating various resources, such as storage, solar, and flexible load management, in homes and farms.

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