Ms. Wang Juan | Mechanical Engineering | Best Researcher Award
Kunming University of Science and Technology, China
Ms. Wang Juan is an accomplished Experimental Engineer at Kunming University of Science and Technology, specializing in advanced fluid sealing theory and applications in aeronautical engines. Her innovative work on contact and non-contact finger seals, along with extensive studies in heat transfer and leakage dynamics, has driven key advancements in aerospace technology. Recognized for her contributions, she has received multiple patents and published influential research in top engineering journals.
Profile
Education🎓
Ms. Wang holds a specialized degree in engineering, focusing on fluid dynamics and sealing technologies. Her academic foundation has empowered her expertise in developing novel sealing solutions for high-stakes applications in aerospace and mechanical engineering.
Experience🛠️Â
With a deep background in experimental engineering, Ms. Wang has been instrumental at Kunming University of Science and Technology, where she leads projects that examine the performance and durability of advanced sealing systems. Her contributions span both experimental research and industry-relevant solutions, including innovations in flexible seals and fluid-solid-thermal models for brush seals.
Research Interests🔬Â
Ms. Wang Juan specializes in fluid dynamics and advanced sealing technologies, contributing critical knowledge to aeronautical engineering. Her research is centered on developing high-performance seals that meet the rigorous demands of aerospace applications.
🧩 Finger and Brush Seals Performance
A key area of Ms. Wang’s research is understanding and optimizing the performance of finger and brush seals. She investigates how these seals behave under a variety of thermal and pressure conditions, aiming to improve their reliability and resilience in aeronautical engines.
🌡️ Heat Transfer and Leakage Dynamics
Ms. Wang’s work also addresses complex issues in heat transfer and leakage dynamics within sealing systems. By studying the thermal characteristics and behavior of leakage flow in seals, she aims to minimize energy loss and maintain stable operational conditions in engine components.
⚙️ Seal Optimization for Enhanced Engine Efficiency and Durability
To further support the aerospace industry, Ms. Wang focuses on optimizing sealing structures to increase engine efficiency and longevity. Her research targets the development of seals that can endure high-stress environments, reducing maintenance costs and extending the lifespan of critical engine parts.
Awards🏆
Ms. Wang’s pioneering work has earned her recognition and funding from the National Natural Science Foundation of China and Yunnan Provincial Department of Education. Her innovative patents in sealing technology highlight her contributions to the field and her commitment to advancing industrial engineering solutions.
Publications Top Notesđź“š
Study on Interstage Pressure Equalization of Differential Multi-Stage Finger Seal with Structural Design, Flow and Heat Transfer Characteristics, Aerospace, 2024. Cited by: 15. Link
Temperature Field and Performance Analysis of Brush Seals Based on FEA-CFD and the Porous Medium of Anisotropic Heat Transfer Models, Energies, 2023. Cited by: 18. Link
Coupled Fluid–Solid Numerical Simulation for Flow Field Characteristics and Supporting Performance of Flexible Support Cylindrical Gas Film Seal, Aerospace, 2021. Cited by: 30. Link
Study on the Reinforcement Mechanism of Graphene Oxide for Non-Asbestos Gasket Composites, International Journal of Fluid Machinery and Systems, 2021. Cited by: 27. Link