Dr . Xiangyang Chen | The fuel cell | Best Researcher Award
Dr.Xiangyang Chen ,Guangdong University of Technology,China
Education :
- Bachelor of Engineering in Mechanical Design, Manufacturing, and Automation
Huali College, Guangdong University of Technology
September 2013 – June 2017 - Master of Engineering in Mechanical Engineering (Fluid and Heat Transfer Direction of Porous Media)
Foshan University
September 2017 – June 2020 - Doctoral Candidate in Materials Science and Engineering (Fuel Cell, Porous Media, Heat Transfer, Fluid Science)
Guangdong University of Technology
September 2020 – June 2024
Research Experience:
- Conducted extensive research in the field of porous media, focusing on fluid dynamics, heat transfer, and fuel cell technology.
- Published several high-impact factor (IF) articles in renowned journals, contributing significantly to the understanding of hydrodynamics and heat transfer in various structures.
- Worked on projects involving the optimization of channel-to-rib width ratios to enhance electrical performance in PEM fuel cells.
- Investigated the effects of laser hatch styles on the densification, microstructure, and tribological performance of aluminum alloys in selective laser melting processes.
Patents:
A patent for a powder spreading device suitable for laser selective melting metal printers (Utility) (Patent Number: ZL 2018 2 1083762.2)
Skills :
- Expertise in fluid dynamics and heat transfer analysis in porous media.
- Proficient in laser selective melting technology and its applications.
- Strong background in materials science, particularly in fuel cell technology.
- Experienced in strain-stress simulation and optimization for electrical performance enhancement.
- Skilled in microstructural analysis and tribological performance assessment.
Awards:
- Recognized for contributing high-impact research in the field of mechanical engineering and materials science.
- Awarded for innovation in laser selective melting technology and its industrial applications
Publications :
- Modeling and performance investigation on the deformed gas diffusion layer of PEM fuel cell,” 2023, IF 7.2
- “Qualitative analysis of fluid dynamics and heat transfer characteristics in porous structures towards aqueous phase reforming hydrogen production,” 2021, IF 7.2
- “Performance of gradient porous structures in hydrodynamics and heat transfer in hydrogen production carriers,” 2020, IF 7.2
- “Channel-to-Rib Width Ratio Optimization for the Electrical Performance Enhancement in PEMFC Based on Accurate Strain-Stress Simulation,” 2024, IF 3.2
- “Hydrodynamics and Heat Transfer Characteristics of a Double Gradient Microchannel Porous Model Fixed Gradients and Variable Gradients Structures,” 2020, IF 3.3
- “选区激光熔化成形 H13 钢缺陷_组织调控及拉伸性能,” 机械工程学报, 2018, IF 1.36
- “Effect of laser hatch style on densification behavior, microstructure, and tribological performance of aluminum alloys by selective laser melting,” 2018, IF 2.7