Xiangyang Chen | The fuel cell | Best Researcher Award

Dr . Xiangyang Chen | The fuel cell | Best Researcher Award

Dr.Xiangyang Chen ,Guangdong University of Technology,China

Dr. Xiangyang Chen is a distinguished professor at Guangdong University of Technology in China. His research focuses on [specific research areas if known, e.g., materials science, mechanical engineering, etc.]. Over the years, Dr. Chen has made significant contributions to his field, earning recognition through numerous publications in top-tier journals and participation in international conferences. He is also actively involved in several research projects funded by national and international organizations. Dr. Chen’s work not only advances academic knowledge but also contributes to practical applications in industry.

 

Professional Profiles:

Scopus

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 :

  1. Modeling and performance investigation on the deformed gas diffusion layer of PEM fuel cell,” 2023, IF 7.2
  2. “Qualitative analysis of fluid dynamics and heat transfer characteristics in porous structures towards aqueous phase reforming hydrogen production,” 2021, IF 7.2
  3. “Performance of gradient porous structures in hydrodynamics and heat transfer in hydrogen production carriers,” 2020, IF 7.2
  4. “Channel-to-Rib Width Ratio Optimization for the Electrical Performance Enhancement in PEMFC Based on Accurate Strain-Stress Simulation,” 2024, IF 3.2
  5. “Hydrodynamics and Heat Transfer Characteristics of a Double Gradient Microchannel Porous Model Fixed Gradients and Variable Gradients Structures,” 2020, IF 3.3
  6. “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
  7. “Effect of laser hatch style on densification behavior, microstructure, and tribological performance of aluminum alloys by selective laser melting,” 2018, IF 2.7