Accelerated Industrial Application of Electric Vehicle Charging Technology

Find Similar History 13 Claim Ownership Request Data Change Add Favourite

Title
Accelerated Industrial Application of Electric Vehicle Charging Technology

CoPED ID
344792d6-cbb2-4d9c-9f09-80571001e807

Status
Active


Value
No funds listed.

Start Date
Sept. 30, 2020

End Date
Sept. 30, 2024

Description

More Like This


It is estimated that in 2018, total UK greenhouse gas emissions were 43.5 per cent lower than in 1990 and 2.5 per cent lower than 2017. Electric vehicles (EVs) are an important part of meeting global goals on reducing CO2 emission. In order to achieve the UK's target - to reduce emissions by 80% by 2050, more research and innovation can be done to prominently facilitate the development of EVs.

The PhD research project aims to collaborate with IPFT Fuels Limited to build a prototype of its conductive EV charger at the Power Electronics (PE) Laboratory at Cardiff University (CU) so as to accelerate the industrial application of EV charging devices in the market. The project aims at addressing the dilemma of cost vs. size, weight, efficiency and reliability based on cost and performance models of the EV charges. The project will validate the technology component and/or basic subsystem of IPFT's product in the PE Lab. The project will achieve the Technology Readiness Level 5 (TRL 5) required by the Automotive Council and therefore, enable the technology for vehicle-to-grid (V2G) and Mobility as a Service (MaaS).

The project sits with the Energy/ Engineering Portfolio research theme areas

The PhD candidate will have the access to the devices such as the wireless EV charging facilities, DC power source, power system emulator and real-time digital simulator. The PhD candidate will design and integrate technological components of the charger with these supporting elements from IPFT so that all system specifications can be simulated and validated.

Cardiff University LEAD_ORG
IPF Technology Ltd STUDENT_PP_ORG

Jun Liang SUPER_PER
Liana Cipcigan SUPER_PER

Subjects by relevance
  1. Emissions
  2. Simulation
  3. Projects
  4. Innovations

Extracted key phrases
  1. Electric Vehicle Charging Technology
  2. Accelerated Industrial Application
  3. Total UK greenhouse gas emission
  4. Phd research project
  5. Technology Readiness Level
  6. Energy/ Engineering Portfolio research theme area
  7. EV charging device
  8. Wireless EV charging facility
  9. Cent low
  10. Conductive EV charger
  11. Co2 emission
  12. Phd candidate
  13. IPFT Fuels Limited
  14. Power system emulator
  15. Electric vehicle

Related Pages

UKRI project entry

UK Project Locations