International Collaboration Sabbatical: To Foster Long-term Collaboration with Leading Control and Power Electronics Experts in the USA

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Title
International Collaboration Sabbatical: To Foster Long-term Collaboration with Leading Control and Power Electronics Experts in the USA

CoPED ID
c244db5f-3698-405d-979d-e6218b3f825b

Status
Closed


Value
£530,625

Start Date
April 9, 2012

End Date
April 30, 2013

Description

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To help build a low carbon economy and combat the climate change, the UK has a target to reduce carbon emissions by 80% by 2050. This requires all sectors of energy generation, transport/distribution, consumption and regulation work together to provide affordable energy and to develop new sources of energy. It has been widely recognised that control and power electronics are enabling technologies for these sectors to achieve the target. Although there are world-leading researchers in the UK in control and power electronics, the majority of the current research activities in these areas are in the US. The proposed sabbatical will enable the PI to work with world-leading US experts in control and power electronics for one year to foster concrete long-term best-with-best collaborations.

During the proposed sabbatical, the PI will be working closely with the hosts on bio-fuels, axial flux permanent magnet synchronous machines, small nuclear reactors, electric vehicle drive systems, high-density power converters for EVs, grid connection of distributed generation and renewable energy, and parallel operation of inverters. The last one is vital for distributed generation and renewable energy, power systems on ships and aircraft.

The proposed sabbatical will enable the PI:
(1) to take the unique opportunities at the Cymer Center for Control Systems and Dynamics, University of California San Diego, for the PI to enter new application areas, such as bio-fuels, axial flux permanent magnet synchronous machines and nuclear generators and to further the PI's work on continuous stirred-tank reactor (CSTR) and AC Ward Leonard drive systems
(2) to open new routes to impact for research via accessing the best facilities available at the Center for Power Electronics Systems (CPES), Virginia Tech, which are not available at the home university so that the research of PI can be broadened and enhanced. Intensive experiments will be carried out at CPES on sychronverters, AC Ward Leonard drive systems and robust droop controllers to increase the Technology Readiness Level (TRL) of these technologies and the CPES Industry Partnership Program will provide excellent commercial opportunities.
(3) to be immersed in the most vibrant research environments at the host centers and share ideas with the brightest minds in control and power electronics. This enables the PI to work with them side-by-side to foster concrete long-term collaboration relationship with Cymer Center and CPES.
(4) to give talks at US universities to enhance the reputation and prominence of UK research in control and power electronics, and to network with other leading researchers in the area so that new insights and ideas can be gained
(5) to gain first-hand experiences from the hosts in how to establish, manage and operate a leading research center that attracts a large number of industrial partners
(6) to explore and attract funding from US funding bodies and industry via collaborative schemes

The proposed sabbatical will benefit the PI and his team, the US hosts, other academic researchers in control and power electronics, the industrial companies involved in the research and, eventually, the relevant industrial sectors and the UK economy. It will enahnce the level and quality of collaboration with US academia and industry within the Material, Mechanical and Medical Engineering programme of EPSRC, and help advance the reputation and prominence of UK research in control and power electronics.


More Information

Potential Impact:
The proposed research aims to foster long-term best-with-best collaborations with world-leading researchers in control and power electronics in the US via working with them side-by-side and being immersed in the most vibrant research environments. This will help strengthen the collaboration between the UK and the US and make contributions towards achieving the EPSRC's strategic goals to deliver impact, shape capacity and to develop leaders. The long-term impact of the project is likely to be high.

The proposed research provides unique opportunities for the PI to work on projects, such as bio-fuels, energy recovery from landing aircraft and small-scale nuclear reactors. These opportunities are not available at the home university. Each of these has great impact towards the reduction of CO2 and sustainability.

The proposed research enables the PI to have access to the state-of-the-art facilities at the host, which offers the opportunity for him to considerably advance the technology readiness level of several technologies he developed. These include the synchronverter technology for the grid connection of distributed generation and renewable energy, the robust droop control strategy for parallel operation of inverters, and the AC Ward Leonard drive systems that have a strong potential for electric vehicles. These will increase the chance for commercialisation, which is not available at the home university. Also, the active engagement of a large number of leading international companies at the hosts means more opportunities for commercialisation.

Packaging of high-density power electronic converters is crucial for electric vehicles. This is a part of the proposed research. The state-of-the-art facilities at CPES, Virginia Tech, provide an excellent opportunity for the PI to gain first-hand experience and skills in packaging power electronic converters, which will benefit the UK's electric vehicles sector in the long run.

It is clear that the proposed research provides a set of enabling technologies to address the sustainability issue and hence will have significant impact towards achieving a low-carbon economy.

Subjects by relevance
  1. Power electronics
  2. Renewable energy sources
  3. Climate changes
  4. Energy technology
  5. Energy production (process industry)
  6. Transformers (electrical devices)

Extracted key phrases
  1. International Collaboration Sabbatical
  2. Term collaboration relationship
  3. Foster long
  4. Density power electronic converter
  5. Packaging power electronic converter
  6. Good collaboration
  7. Term good
  8. UK research
  9. Term impact
  10. Concrete long
  11. Long run
  12. Vibrant research environment
  13. Density power converter
  14. Power system
  15. Current research activity

Related Pages

UKRI project entry

UK Project Locations