ESSB 17 Tutorial: Energy Storage Tutorial (Slides)
B. Chalamala, R. Byrne, J. McDowall, V. Sprenkle, C. Searles, B. Chalamala, D. Borneo, C. Vartanian, R. Schubert
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Tutorial
15 Jun 2017
Energy Storage is helping the electric grid reinvent itself, from allowing renewables and electric vehicles to interact with the bulk electric system to establishing distributed energy resources (microgrids, demand response) as well as improving in front of the grid reliability and providing capital deferral. The following technical sessions explore the exciting evolution in both Energy Storage System applications and technologies:
1. The Energy Storage Evolution
2. Major Application Areas for Energy Storage
- In Front of the Grid Applications (e.g. frequency regulation, peak demand deferral, reliability)
- Behind the Meter Applications (e.g. demand response, load shifting, renewables integration)
3, Major Battery Technologies for Energy Storage
- Lithium batteries
- Flow batteries
- Lead-acid batteries
- Other technologies
4. Interconnectivity of the Grid
- The Impact of renewables, microgrids, DER
- The Role of IEEE 1547
- Effect of FERC 1000
1. The Energy Storage Evolution
2. Major Application Areas for Energy Storage
- In Front of the Grid Applications (e.g. frequency regulation, peak demand deferral, reliability)
- Behind the Meter Applications (e.g. demand response, load shifting, renewables integration)
3, Major Battery Technologies for Energy Storage
- Lithium batteries
- Flow batteries
- Lead-acid batteries
- Other technologies
4. Interconnectivity of the Grid
- The Impact of renewables, microgrids, DER
- The Role of IEEE 1547
- Effect of FERC 1000
Chairs:
Chris Searles
Sponsor Committees:
Energy Storage and Stationary Battery Committee (ESSB)
