Title
Subsurface Technology for Electric Pathways (STEP)

CoPED ID
79773e0a-16fe-4ef5-9ac1-2d92827b6383

Status
Active


Value
£6,339,620

Start Date
Dec. 1, 2019

End Date
March 30, 2022

Description

More Like This


EV adoption is crucial for the UK to meet climate targets and tackle air pollution. Battery costs and consumer acceptance are improving, but a remaining barrier inhibiting rapid EV uptake is lack of public recharging infrastructure. A substantial 8m vehicle owners in the UK don't have access to off-street parking and therefore cannot charge an EV at home.

There are several approaches to this problem, however each has drawbacks:

Standalone on-street chargepoint -- often inconveniently located, expensive, and presents access issues due to bulky equipment
Lamppost charging -- cheap but limited to lampposts close to the road. Power restricted to 2-5kW.
Wire trenches -- slotting cable in pavement between chargepoint in home and car. Needs users parked directly outside their house
Pop-up and wireless charging -- in early stages of development
Rapid charge hubs -- no evidence yet that this is a solution for residents
The Trojan Energy system however, presents a novel, cost-effective solution to the lack of on-street chargepoints. It involves a flush connection, where the chargepoint is slotted into the ground, resulting in no permanent street clutter on the pavement edge. To charge an EV, the user inserts the 'lance' into the connector, and the other end plugs into the car.

The STEP Phase 1 study successfully proved the feasibility of these chargepoints. There is substantial demand for the commercially viable product: ~90% of workshop attendees said they wanted the technology installed outside their home, and the majority of survey respondents said the solution would help overcome the barrier of lack of public charging. Additionally, local authorities have confidence in the technology, particularly as it is scalable and helps to relieve parking pressure within boroughs.

The Phase 2 trial will demonstrate the charging system in a real-life environment. Entire streets within Brent and Camden will be fitted with the technology -- connectors will be placed about 5m apart, allowing residents to charge regardless of where they park. Several users have already expressed interest in the technology, and Octopus Energy will also recruit some of their home energy and EV customers.

Furthermore, as 15 connectors can run in parallel, requiring only one grid connection, costs can be reduced, and effective grid management can be enabled. Chargepoints and vehicles will be monitored in the trial, to gain information on charging behaviour and to substantiate potential revenue from grid services, an important aspect for distribution network operators (DNOs).

Element Energy Limited LEAD_ORG
Birmingham City Council PARTICIPANT_ORG
Octopus Energy Limited PARTICIPANT_ORG
Element Energy Limited PARTICIPANT_ORG
London Borough of Brent PARTICIPANT_ORG
Uk Power Networks (Operations) Limited PARTICIPANT_ORG
The London Borough of Camden PARTICIPANT_ORG
Trojan Energy Limited PARTICIPANT_ORG
University of Leeds PARTICIPANT_ORG

Subjects by relevance
  1. Technology
  2. Costs
  3. Users

Extracted key phrases
  1. Subsurface Technology
  2. EV adoption
  3. Rapid EV uptake
  4. Electric Pathways
  5. EV customer
  6. Street chargepoint
  7. Rapid charge hub
  8. STEP
  9. Street parking
  10. Permanent street clutter
  11. Distribution network operator
  12. Effective grid management
  13. M vehicle owner
  14. Entire street
  15. Battery cost

Related Pages

UKRI project entry

UK Project Locations