Grid integration of multiple energy-storage flywheels
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Description
The focus of this competition is on integration of energy storage technologies into the energy system, and not on
developing the underlying technologies. The industrial partner Williams Grand Prix Engineering have already developed the
underlying technology behind the flywheel, and have a fully working product. The project is therefore aims to look at how
multiple flywheel units can be best integrated into the grid. This will include developing a control strategy for a multiple
flywheel system in order to optimise efficiency, and life. Optimal arrangements of grid tie inverters (size and quantity) in
terms of efficiency and cost, will also be investigated for a wide range of power requirements, to further improve the
complete energy-storage package.
More Information
Potential Impact:
With the increased diversity of energy sources, means of achieving grid stabilisation has become a key concern,
particularly in weak grids. Therefore, this project would further demonstrate the usefulness of flywheel energy storage
systems as viable candidate technology.
| University of Sheffield | LEAD_ORG |
| Kais Atallah | PI_PER |
Subjects by relevance
- Energy
- Technology
- Energy technology
- Warehousing
- Efficiency (properties)
Extracted key phrases
- Flywheel energy storage
- Energy storage technology
- Grid integration
- Grid tie inverter
- Multiple energy
- Storage flywheel
- Multiple flywheel unit
- Energy system
- Grid stabilisation
- Weak grid
- Flywheel system
- Energy source
- Complete energy
- Industrial partner Williams Grand Prix Engineering
- Storage package