Title
Modelling of Thermal Energy Storage

CoPED ID
e0e77346-c5cd-4cc4-aac1-f5204592f4ec

Status
Closed


Value
No funds listed.

Start Date
Sept. 30, 2018

End Date
Dec. 31, 2021

Description

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There is much interest worldwide in energy storage, which is still currently dominated by pumped hydro. The new systems based on thermal storage (as opposed to chemical batteries and the like) that will be considered in this project show particular promise due to their relatively high energy density and the low cost of materials. This project will contribute to the body of work in this area that has been undertaken at CUED for several years and received excellent recognition, both nationally and internationally. It will link in to the EPSRC-funded Generation-Integrated Energy storage work.

The project aims to explore the range of working fluids and cycle configurations (especially transcritical cycles) for thermo-mechanical energy storage technologies and develop design rules based based on concepts such as power density and energy density. In the current literature, few working fluids have been compared in terms of their performance, and transcritical cycles have been relatively sparsely studied. This will be mainly computer-based, with cycle analysis methods coded in Matlab or Python.

Furthermore, the project will include developing accurate cost models for the aforementioned cycle configurations. This will enable cost-efficiency optimisation thereof.

Alexander White SUPER_PER

Subjects by relevance
  1. Energy
  2. Optimisation
  3. Warehousing

Extracted key phrases
  1. Integrated Energy storage work
  2. Mechanical energy storage technology
  3. Thermal Energy Storage
  4. High energy density
  5. Modelling
  6. Aforementioned cycle configuration
  7. Thermal storage
  8. Transcritical cycle
  9. Cycle analysis method
  10. Interest
  11. Accurate cost model
  12. Project
  13. Power density
  14. Low cost
  15. New system

Related Pages

UKRI project entry

UK Project Locations