Li Lei
Improving the flexibilty of microgrids.
Email: [email protected]
Supervisors
Project description
Microgrids will play a main part in the intelligent and sustainable power systems of the future.
Our research will improve the flexibility of a microgrid. It will realise the plug-and-play feature of distributed generation and load. The traditional droop control cannot efficiently allot power between multiple inverters. We are investigating an improved droop control to control the parallel inverters in microgrids.
Publications
- Lei Li, Elgendy M, Wade N, Ethni S, Hasanien H. Power sharing between parallel inverters in microgrid by improved droop control. In: 53rd International Universities Power Engineering Conference (UPEC). 2018, Glasgow, UK: IEEE.
- Lei L, Elgendy M, Wade N, Ethni S. Power sharing between parallel inverters by using droop control with a secondary control loop. In: 10th International Symposium on Power Electronics for Distributed Generation Systems (PEDG). 2019, Xi'an, China: IEEE.
Interests
Power systems, power electronics, renewable energy.
Qualifications
- Bachelor degreee from China University of Mining and Technology (CUMT) 2011-2015
- Master degree from Newcastle University 2015-2016