I am an Assistant Professor at the University of Bristol in UK. I established the new Applied Superconductivity Lab and am supervising 6 PhD students as the 1st supervisor. I have been working on designing and developing high temperature superconducting (HTS) electrical applications based on REBCO wires for 10+ years. My research covers:
(1) Multiphysics modelling for HTS REBCO wires, coils, cables, and machine windings;
(2) Loss analysis of HTS REBCO wires, coils, cables, and machine windings;
(3) Modelling, analysis, and optimization for HTS electrical machines based on REBCO;
(4) Experimental test and study for HTS REBCO wires, coils, cables, machine windings, flux pumps, transformers, and fault current limiters.
We built experimental platforms to study the characteristics of HTS REBCO wire/coil/cables, including Ic measurement, AC loss measurement, and dynamic loss measurement. These experimental results are used for validating our HTS models & simulations. Until now, I had published 30+ research papers in HTS modelling. I also served as Board Member and Early Career Officer of the European Society of Applied Superconductivity (ESAS). My expertise and experience can provide solid contribution for HTS Modelling Workgroup.
This article was published on