Title
Ebbs and Flows of Energy Systems (EFES)

CoPED ID
f24f12f4-f1cc-4f70-bc13-33282584a842

Status
Closed


Value
£1,725,720

Start Date
Jan. 1, 2015

End Date
Dec. 31, 2017

Description

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This project builds upon the Ebbs and Flows of Energy Systems feasibility study (31737-230167) and demonstrates the
development, impact and business potential of a Virtual Power Plant (VPP) integrating; building energy management,
renewable electricity generation, electric vehicles and battery storage systems. The project will manage the electricity use
of a range of sites, from single properties through to large commercial premises. The proposed management system uses
algorithm based predictive control to enable and optimise the active utilisation of multiple electric vehicle and domestic
storage batteries as an energy storage and generation resource. The project will demonstrate VPP functionality,
aggregating the disparate energy distributed energy resources to provide wider network ancillary support services, such as
peak shaving. This will reduce variability in electricity demand levels, cost and CO2 emissions, plus improve the UK grid
security of supply.
Energy storage is one of the eight great technologies identified by the government to propel the UK to future growth (David
Willetts MP, Policy Exchange, 2013). The RCUK Review of Energy in 2010 highlights that R&D into energy storage has the
potential to yield high levels of decarbonisation beyond 2030. The TSB (Energy Supply Strategy, 2012) states that battery
related R&D within the energy and transport sectors is a UK priority that will benefit from public investment.


More Information

Potential Impact:
We have a project management structure to allow all investigators to pursue the most promising lines of research to
maximise impact. There are four important aspects to dissemination: the academic community, the distribution utilities, EV
manufacturers and the policy makers.
The research challenges are such that publication of results in international IET and IEEE conferences (such as the IEEE
Power Soc. General Meeting, CIRED and CIGRE), and ultimately in learned journals.
Two workshops will be organised by Cardiff University to publicise the emerging results of this consortium's work and to
discuss technical issues. The advisory companies will be closely involved in the progress of the work through project
meetings. The involvement of car manufacturer, DNOs and utility companies in the Advisory Board means a logical route to
exploitation exists.
Consortium members are already engaging with industry, government and end users through existing projects, and been
involved in organising and a diverse range of impact routes through working with regional and national governments,
commercial and not-for-profit organisations and advising on the setting of energy standards and regulations. This network
of engagements will continue and expand for informing the policy makers and industry about the findings and effective
knowledge exchange will be achieved. Prof. Nick Jenkins is directly involved with the Ofgem / DECC group on Smart Grids.
Consortium members have established formal and informal links with international collaborators in Europe and USA, and
opportunities for new connections are presented by COST Action "Autonomic Road Transport Support Systems."
Our project will be specifically developing demonstration case studies showing how EVs will impact the electricity systems,
which should be of great relevance to DNO. Contributions will continue to be made through Grid Code and Engineering
Recommendations revisions in the UK, and also through technology evaluation and demonstration.
Engagement in DECC/OFGEM Smart Grids Forum, Low Carbon Network Fund bids, Innovation Funding Incentive projects,
and the Energy Technologies Institute infrastructure programme, all provide the academics with pathways to impact. The
focus on tangible technological outputs, together with the informing context of case studies, provides a strong delivery
mechanism for communicating emerging technology options.
This project contributes to more cost effective integration of EVs and renewables along with reduction of CO2 emissions
and thus will benefit society at large.

Liana Cipcigan PI_PER
Omer Rana COI_PER
Nick Jenkins COI_PER
Pete Burnap RESEARCH_COI_PER

Subjects by relevance
  1. Renewable energy sources
  2. Emissions
  3. Energy policy
  4. Cooperation (general)
  5. Projects
  6. Warehousing
  7. Energy management
  8. Optimisation
  9. Electrical power networks

Extracted key phrases
  1. Energy Systems feasibility study
  2. Ebb
  3. Project management structure
  4. Energy Technologies Institute infrastructure programme
  5. Innovation Funding Incentive project
  6. Energy Supply Strategy
  7. Energy storage
  8. Energy management
  9. Battery storage system
  10. Flow
  11. Energy resource
  12. Disparate energy
  13. Energy standard
  14. Renewable electricity generation
  15. Demonstration case study

Related Pages

UKRI project entry

UK Project Locations