Doctor, Technical Institute of Physics and Chemistry of the Chinese Academy of Sciences, China
Shun Qiu is a dedicated researcher in the field of Refrigeration and Cryogenic Engineering, currently pursuing a masterβs degree at the Technical Institute of Physics and Chemistry (TIPC), Chinese Academy of Sciences. With a strong academic foundation from Nanjing University of Science and Technology, his research focuses on hydrogen liquefaction and turbo-expander technologies. He has co-authored multiple publications and participated in key projects addressing ultra-high-speed rotor dynamics and thermodynamic analyses. An award-winning scholar and an excellent student leader, Shun Qiu is committed to advancing sustainable energy technologies and achieving innovative breakthroughs in cryogenics.
PROFILE
Scopus
STRENGTH FOR THE AWARD
Shun Qiu demonstrates a highly impressive research portfolio in the field of refrigeration and cryogenic engineering. His graduate research focuses on cutting-edge topics such as hydrogen liquefaction and high-speed turbo-expander systems, which are pivotal for advancing clean energy technologies. His publication record in high-impact journals such as Mechanical Systems and Signal Processing (JCR Q1, IF: 7.9) reflects both the quality and relevance of his work. Additionally, his involvement in experimental and theoretical studies highlights his ability to integrate multidisciplinary approaches. Shun’s academic excellence, reflected by his high GPAs (3.85/4.0 and 3.71/4.0), and multiple awards, such as the Recommended Exemption Graduate Scholarship and National Encouragement Scholarship, further bolster his credentials.
AREAS FOR IMPROVEMENT
While Shun Qiu has a solid academic and research background, expanding his international collaborations and participation in global conferences would strengthen his profile further. Developing a more extensive citation record and h-index could also elevate his academic impact. Diversifying research areas slightly to include applications in adjacent fields could make his work more versatile and impactful.
EDUCATION
π Master of Refrigeration and Cryogenic Engineering
2020βPresent: TIPC, Chinese Academy of Sciences
Key Courses: Advanced Engineering Thermodynamics, Fluid Mechanics, Heat Transfer, Principle of Refrigeration and Cryogenics
π GPA: 3.85/4.0
π Awards: Recommended Exemption Graduate Scholarship, Excellent Student Cadre
π Bachelor of New Energy Science and Engineering
2016β2020: Nanjing University of Science and Technology
Key Courses: Engineering Thermodynamics, Fluid Mechanics, Heat & Mass Transfer
π GPA: 3.71/4.0
π Awards: National Encouragement Scholarship, Merit Student, Outstanding Graduate
EXPERIENCE
π Development of Hydrogen Liquefaction Plant & Hydrogen Turbo-Expander (2021βPresent)
Focused on generator braking, dynamic characteristics, and gas-bearing rotor systems. Conducted experimental validation.
π Undergraduate Graduation Design (2019β2020)
Analyzed solubility of metal oxides in supercritical water through thermodynamic methods.
π¨βπ« Leadership Roles
- Class Monitor, NUST (2018β2020)
- Principal, TIPC Summer Camp (2022)
AWARDS AND HONORS
π
Recommended Exemption Graduate Scholarship
π
Excellent Student Cadre
π
National Encouragement Scholarship
π
Merit Student
π
Outstanding Graduate
RESEARCH FOCUS
π¬ Hydrogen Liquefaction & Turbo-Expander Technologies
Studying hydrogen liquefaction processes and turbo-expander design for energy applications.
π¬ Dynamic Properties of High-Speed Rotor Systems
Researching rotor dynamics supported by helium gas bearings.
π¬ Thermodynamic Analyses in Hydrothermal Systems
Exploring solubility mechanisms for energy and material sciences.
PUBLICATION TOP NOTES
- Nonlinear Dynamic Analysis of a Novel Tangential Supply Aerostatic Bearing-Rotor System: Theory and Experiment
Shun Qiu, Changlei Ke, Liqiang Liu
Mechanical Systems and Signal Processing (JCR Q1, IF: 7.9)
- Investigation of Nonlinear Dynamic Behaviors of Vertical Rotor System Supported by Aerostatic Bearings
Shun Qiu, Changlei Ke, Nan Peng
Journal of Computational and Nonlinear Dynamics (JCR Q3, IF: 2.0)
- Multi-Field Coupling Rotor Characteristics Analysis for High-Speed Turbo Expander Generator Brake
Shun Qiu, Nan Peng, Liqiang Liu
Proceedings of ICEC28-ICMC2022
CONCLUSION
Shun Qiu is an outstanding candidate for the Best Researcher Award due to his exceptional academic achievements, innovative research in hydrogen-related cryogenic systems, and contributions to high-impact publications. His work addresses pressing global challenges, making him a strong contender. With continued focus on international outreach and increasing his research visibility, he is poised for even greater recognition in the scientific community.