Yingchun Xie | Engineering and Technology | Best Researcher Award
Prof Yingchun Xie, College of Engineering, Ocean University of China, China
Prof. Yingchun Xie is a Full Professor at the Faculty of Engineering, Ocean University of China. She specializes in the safety of new energy ships and the environmental adaptability of marine equipment. With over 20 research projects funded by the National Natural Science Foundation of China, Prof. Xie has published 40+ papers, 2 monographs, and holds 30 patents. She has won several prestigious awards, including the Science and Technology Progress Prize of Shandong Province. She has an H-index of 45 and actively contributes to academic conferences and collaborative research. ππ’π¬ππ
Publication Profile
Education & Experience
Dr. Yingchun Xie is a Full Professor at the Faculty of Engineering, Ocean University of China, specializing in the safety of new energy ships and the environmental adaptability of offshore equipment. Over the years, she has led two National Natural Science Foundation of China-funded projects and managed over 20 scientific research endeavors. Her impressive work includes over 40 academic papers, two monographs, and more than 20 authorized patents. Dr. Xie has received notable honors, including the First Prize for Science and Technology Progress in Shandong Province and the Qingdao Youth Science and Technology Award. π’π¬πππ§βπ¬
Research
Prof. Yingchun Xie has made significant contributions to research with 24 completed and ongoing projects. With 637 citations across Scopus, Web of Science, and other databases, he has authored 3 books and 46 journal publications in SCI and SCIE-indexed journals. His work has led to 30 patents, and he has delivered 10 invited talks. Prof. Xie has successfully supervised 19 research scholars and currently guides 18 others. He has organized 10 conferences/workshops and holds 5 functional MoUs with universities and industries. A member of 18 professional bodies, he has received 11 awards, demonstrating his dedication to advancing research. ππ¬ππ¨βπ«π
Research & Development
Dr. Yingchun Xie is a leading expert in the safety of new energy ships and the environmental adaptability of marine engineering equipment. With over 20 research projects, including National Natural Science Foundation tasks, she has tackled various technical challenges, contributing significantly to the industry’s technical advancement. Driven by innovation, Dr. Xie bridges cutting-edge academic research with practical engineering applications, promoting the development of relevant professional theories. Her research achievements have earned her recognition at academic and industry events, enhancing her universityβs visibility and attracting resources to advance the field of new energy ships and marine equipment. π’π¬π±ππ
Research Focus
Prof. Yingchun Xie’s research primarily focuses on marine and energy systems, with an emphasis on advanced technologies for hydrogen energy, acoustic emission monitoring, and underwater engineering. His work on hydrogen diffusion and sensor strategies in marine engine rooms is pivotal for improving safety and energy efficiency in maritime applications π’π‘. He also explores deep learning methods for methane plume detection using optical imaging π§ πΈ and hydrodynamic characteristics of underwater gas storage devices ππ. Additionally, Prof. Xie is involved in the thermodynamic and economic analysis of energy systems, including combined cooling, heating, and power systems π₯π¨. His diverse research combines ocean engineering, energy storage, and marine technologies.
Publication Top Notes
Research on hydrogen diffusion and sensor arrangement strategy in a marine engine room
FMAW-YOLOv5s: A deep learning method for detection of methane plumes using optical images
Near-field acoustic emission source localization method based on orthogonal matching pursuit under nonuniform linear array
Numerical simulation and experimental study of hydrodynamic characteristics of inverted-droplet underwater gas storage devices
Thermodynamic and economic analysis of the combined cooling, heating, and power system coupled with the constant-pressure compressed air energy storage
Grabbing Path Extraction of Deep-Sea Manganese Nodules Based on Improved YOLOv5
Study on the impact of wave characteristics on the performance of full-scale tidal turbine
An improved near-field weighted subspace fitting algorithm based on niche particle swarm optimization for ultrasonic guided wave multi-damage localization