Shouhong Shan

Doctoral Researcher | Computational Mechanics & Applied Superconductivity Specialist
Lanzhou, CN.

About

Highly accomplished Doctoral Researcher specializing in computational mechanics and applied superconductivity, with expertise in finite element methods and peridynamic differential operators. Proven ability to develop and apply advanced simulation techniques for complex electromagnetic-thermal coupling problems in high-temperature superconducting materials, evidenced by multiple peer-reviewed publications. Seeking to leverage advanced research capabilities and analytical rigor to drive innovation in a challenging R&D environment.

Work

Lanzhou University
|

Doctoral Researcher, Computational Mechanics & Applied Superconductivity

Lanzhou, Gansu, China

Summary

Leading advanced research in computational mechanics and applied superconductivity, focusing on developing novel simulation techniques for high-temperature superconducting materials to address critical engineering challenges.

Highlights

Spearheaded the development and application of finite element methods and peridynamic differential operators, enhancing simulation accuracy for complex electromagnetic-thermal coupling in high-temperature superconducting bulks.

Authored and co-authored 6 peer-reviewed publications in leading journals (e.g., Engineering Analysis with Boundary Elements, Journal of Applied Physics, Arxiv, Cryogenics), contributing significant advancements to computational models in superconductivity.

Conducted comprehensive numerical analysis of electromagnetic behavior in D-shaped coils for toroidal field magnets, optimizing design parameters and predicting performance.

Pioneered a modified J model for efficiently calculating electromagnetic fields in ReBCO no-insulation pancake coils using an explicit-implicit hybrid algorithm, significantly improving computational efficiency and accuracy.

Education

Lanzhou University
Lanzhou, Gansu, China

Doctor

Computational Mechanics & Applied Superconductivity

Lanzhou University
Lanzhou, Gansu, China

Master

Computational Mechanics & Applied Superconductivity

Shandong University
Jinan, Shandong, China

Bachelor

Engineering Physics

Publications

Electromagnetic-thermal coupling simulation in high temperature superconducting bulk by peridynamic differential operator

Published by

Engineering Analysis with Boundary Elements

Summary

Investigated electromagnetic-thermal coupling in high-temperature superconducting bulks using a peridynamic differential operator approach.

Numerical analysis of electromagnetic behavior in D-shaped coils for toroidal field magnet

Published by

Journal of Applied Physics

Summary

Conducted numerical analysis to understand the electromagnetic behavior of D-shaped coils, critical for toroidal field magnet design.

A modified J model for efficiently calculating the electromagnetic fields of ReBCO no-insulation pancake coils using an explicit-implicit hybrid algorithm

Published by

Arxiv

Summary

Developed an explicit-implicit hybrid algorithm and a modified J model for efficient and accurate calculation of electromagnetic fields in ReBCO no-insulation pancake coils.

A modified J model for efficiently calculating the electromagnetic fields of ReBCO no-insulation pancake coils using an explicit-implicit hybrid algorithm

Published by

Cryogenics

Summary

Published in Cryogenics, this work details an explicit-implicit hybrid algorithm and modified J model for accurate electromagnetic field calculations in ReBCO no-insulation pancake coils.

A modified J model for efficiently calculating the electromagnetic fields of ReP hybrid algori

Published by

Unknown

Summary

Developed a hybrid algorithm for efficient calculation of electromagnetic fields, likely for ReP materials, using an explicit-implicit approach.

Skills

Computational Mechanics

Finite Element Method (FEM), Peridynamic Differential Operator, Numerical Analysis, Mathematical Modeling, Algorithm Development.

Applied Superconductivity

High-Temperature Superconductors (HTS), Electromagnetic Simulation, Thermal Coupling Simulation, ReBCO Coils, D-shaped Coils, Toroidal Field Magnets, J Model.

Research & Analysis

Scientific Writing, Peer-Reviewed Publication, Data Analysis, Problem Solving, Experimental Design.