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

Zahra Baniamerian |Energy storage Award |Women Researcher Award

Dr .Zahra Baniamerian |Energy storage Award |Women Researcher Award

Dr .Zahra Baniamerian ,University of Nottingham,United Kingdom

Dr. Zahra Baniamerian is a distinguished academic affiliated with the University of Nottingham in the United Kingdom. Specializing in [please fill in her field of expertise if available], Dr. Baniamerian has made significant contributions to her field through her research, teaching, and academic leadership. With a dedication to advancing knowledge and fostering intellectual growth, she has garnered recognition for her expertise and commitment to excellence in education and research. Dr. Baniamerian’s work embodies a passion for innovation and a deep-seated desire to make meaningful contributions to her academic community and beyond.

 

Professional Profiles:

Scopus

 

🎓 Education :

PhD in Mechanical Engineering, Energy Conversion, K.N.Toosi University of Technology, Tehran, February 2011,MSc in Mechanical Engineering, Energy Conversion, Sharif University of Technology, Tehran, September 2007m,BSc in Mechanical Engineering, Thermal and Fluid Mechanics, K.N.Toosi University of Technology, Tehran, September 2005

 

💼 Professional Summary:

Dynamic and accomplished researcher specializing in energy storage, energy systems, thermal engineering, and nanofluid technologies. Recognized leader in the field of cooling, with extensive expertise in microelectronic cooling, boiling-mode cooling, boiling fluids, multiphase flows, and convective heat transfer. Head of the Nanofluids Laboratory and an Associate Professor with a proven track record of successful research, publication, and project management.

🔬 Current Research Focus:

As a Research Fellow in Thermomechanical Energy Storage at the University of Nottingham, I focus on:

Designing and simulating Advanced Adiabatic Compressed Air Energy Storage (AA-CAES) plants to assess the effects of pressure on cost, design, and system performance.,Exploring optimal configurations for integrating wind and solar energy with various storage options such as compressed air, hydrogen, and wind-integrated energy storage.,Patenting a novel idea for using ammonia transmission as a safer alternative for commercial and residential applications.

🏢 Experience:

University of Nottingham, Nottingham, United Kingdom (May 2023 – Present)
Research Fellow, Thermomechanical Energy Storage,Tafresh University, Department of Mechanical Engineering, Tafresh (Feb 2011 – Apr 2023)
Associate Professor, Researcher, and Lecturer,AradSanat Company, Tehran (May 2005 – Feb 2011)
Director of Design and Engineering Department

🔍 Research Highlights:

Proposed a new generation of advanced nanofluids with permanent stability and enhanced enthalpy of vaporization.,Developed a novel apparatus to measure the enthalpy of evaporation of nanofluids at high pressures, a world-first achievement. ,Improved the absorption of solar radiation in solar collectors by 40% using efficient nanofluids as working fluids.

Publications:

Dr. Zahra Baniamerian has made significant contributions to various scientific journals, including:

  1. How pressure affects costs of power conversion machinery in compressed air energy storage; part I: Compressors and Expanders, Journal of Energy Storage.
  2. How pressure affects costs of power conversion machinery in compressed air energy storage; part II: Heat exchangers, Journal of Energy Storage, Volume 86, Part A, 2024.
  3. Molecular dynamics calculations of the enthalpy of vaporization for different water models, Journal of Molecular Liquids 393.
  4. Experimental assessment of energy tower’s performance: evaluation of the impacts of solar radiation, humidity, and chimney’s height on the overall efficiency, Environmental Science and Pollution Research.
  5. Effects of pressurization on the Enthalpy of vaporization for the SiO2 nanofluid, Physical Chemistry Chemical Physics, Vol. 25 (2023).
  6. Role of nanoparticles on critical heat flux in convective boiling of nanofluids: Nanoparticle sedimentation and Brownian motion, International Journal of Heat and Mass Transfer, Vol. 150 (2020).
  7. Semi-Analytical Modeling of Critical Heat Flux in Convective Boiling of Nanofluids, Journal of Thermophysics and Heat Transfer.

Doria Marciuš | Hydrogen technology Award |Best Researcher Award

Ms .Doria Marciuš | Hydrogen technology Award |Best Researcher Award

Ms .Doria Marciuš ,Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Croatia

The University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture (FSB) is a renowned institution in Croatia, offering high-quality education and research in mechanical engineering and naval architecture. Established in 1919, FSB has a long tradition of excellence and innovation in the fields of engineering. With a strong emphasis on practical skills and interdisciplinary collaboration, FSB prepares students for careers in various industries, including automotive, aerospace, marine, and energy sectors. The faculty is known for its cutting-edge research and close cooperation with industry partners, contributing to advancements in technology and sustainable development.

 

Professional Profiles:

Scopus

Education and Training:

Ph.D. in Energy Engineering (current),Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Address: Ivana Lučića 5, 10000 Zagreb, Croatia
Website: www.fsb.unizg.hr,M.Sc. in Energy Engineering
Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Address: Ivana Lučića 5, 10000 Zagreb, Croatia,Website: www.fsb.unizg.hr,B.Sc. in Energy Engineering
Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Address: Ivana Lučića 5, 10000 Zagreb, Croatia,Website: www.fsb.unizg.hr,Erasmus+ Student Exchange
Strathclyde University, Glasgow, United Kingdom
Address: 16 Richmond Street, G1 1QE, Glasgow, United Kingdom,Website: www.strath.ac.uk

Work Experience:

Project Assistant,Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb
Project: Securing electrical energy in the case of climate extremes and natural disasters (H2ElEn),Junior Associate,Engineering Laboratory, Faculty of Mechanical Engineering and Naval Architecture, University of Zagreb,Focus: Renewable hydrogen production, hydrogen compression,Associate on Environmental Protection Projects Society for Designing Sustainable Development (DOOR)
Field work: Promotion of sustainable energy development in rural areas, energy efficiency installations,Energy Engineer,INOVAPRO
Responsibilities: Designing energy and HVAC installation projects, renewable energy sources integration,HVAC Engineer,OPUS OPTIMUS
Projects: Design and calculations of HVAC installations for the German market, 3D modeling

Technical Skills:

  • Programming: Python, Java, C++, C#
  • Frameworks & CMS: Django, Flask, Codeignitor, MVC
  • Web Development: HTML, CSS, Bootstrap, JavaScript, jQuery, PhP
  • Databases: SQL, MySQL, SQLite
  • Software: Spyder, Jupyter, MATLAB, Sublime Text, PyCharm, Visual Studio, Anaconda, Dreamweaver, Eclipse, NetBeans
  • Protocols: IEEE 802.11, HTTP, CoAP, MQTT, TCP/IP
  • Operating Systems: Ubuntu, Raspbian, Windows

Language Skills:

  • Croatian: Native
  • English: C1
  • German: A2

Skills:

  • Revit, AutoCAD, and Solidworks
  • MATLAB and Simu

Publication Top Notes :

Undergraduate Thesis – 2019 Title: Thermal Management of Hydrogen Refueling Station Housing on an Annual Basis Institution: University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture

Graduate Thesis – 2019 Title: Solar Hydrogen Production via Alkaline Water Electrolysis Authors: A. Kovač, D. Marciuš, L. Budin Journal: International Journal of Hydrogen Energy, Volume 44, Issue 20, Pages 9841-9848

Research Paper – 2021 Title: Thermal Management of Hydrogen Refueling Station Housing on an Annual Level Authors: A. Kovač, D. Marciuš, M. Paranos Journal: International Journal of Hydrogen Energy, Volume 46, Issue 57, Pages 29400-29410

Research Review – 2021 Title: Hydrogen in Energy Transition: A Review Authors: A. Kovač, M. Paranos, D. Marciuš Journal: International Journal of Hydrogen Energy, Volume 46, Issue 16, Pages 10016-10035

Research Paper – 2022 Title: Electrochemical Hydrogen Compressor: Recent Progress and Challenges Authors: D. Marciuš, A. Kovač, M. Firak Journal: International Journal of Hydrogen Energy, Volume 47, Issue 57, Pages 24179-24193

Research Project – 2022 Title: Introduction of Hydrogen in the Kosovo Transportation Sector

Solidônio Rodrigues de Carvalho | Waste to Energy Award |Best Researcher Award

Prof Dr .Solidônio Rodrigues de Carvalho | Waste to Energy Award |Best Researcher Award

prof dr.solidonio rodrigues de carvalho,Universidade Federal de Uberlândia,Brazil

Professor Dr. Solidonio Rodrigues de Carvalho is a distinguished academic figure affiliated with the Universidade Federal de Uberlândia in Brazil. Renowned for his expertise in [insert field of study], Dr. Carvalho has made significant contributions to both research and education throughout his career. With a passion for advancing knowledge and fostering innovation, he has inspired countless students and colleagues alike. Dr. Carvalho’s dedication to scholarship and his commitment to excellence serve as a testament to his influential role within the academic community.

 

Professional Profiles:

Scopus

Perfil Acadêmico e Profissional:

Formação Educacional Exemplar

Prof. Dr. Solidônio Rodrigues de Carvalho é um renomado profissional da área de Engenharia Mecânica, com uma sólida formação acadêmica. Graduou-se, obteve seu mestrado, doutorado e pós-doutorado em Engenharia Mecânica pela Universidade Federal de Uberlândia (UFU), demonstrando um comprometimento contínuo com sua área de atuação.,Contribuições como Professor Associado,Atualmente, ocupa a posição de Professor Associado IV na Faculdade de Engenharia Mecânica (FEMEC) da UFU. Sua atuação se estende tanto aos cursos de graduação quanto aos programas de pós-graduação da FEMEC, destacando-se como um educador e mentor dedicado.,Liderança em Projetos de Pesquisa,Com um impressionante histórico de liderança em pesquisa, o Prof. Dr. Solidônio coordenou mais de 10 projetos de pesquisa, envolvendo órgãos de fomento e parcerias com empresas. Esses projetos abrangem uma ampla gama de temas, refletindo sua versatilidade e expertise na área de Engenharia Mecânica.,Mentoria e Orientação Acadêmica,O Prof. Dr. Solidônio desempenhou um papel fundamental na formação de uma nova geração de acadêmicos e pesquisadores. Orientou 10 teses de doutorado, 13 dissertações de mestrado, além de mais de 20 trabalhos de fim de curso e 17 alunos de iniciação científica, evidenciando seu compromisso com o desenvolvimento acadêmico dos estudantes.

Áreas de Atuação e Expertise:

Foco em Engenharia Mecânica Avançada,Com uma sólida experiência na área de Engenharia Mecânica, o Prof. Dr. Solidônio concentra sua pesquisa em diversos campos, incluindo Transferência de Calor, Mecânica dos Fluidos, Termodinâmica e Sistemas Térmicos.,Principais Temas de Pesquisa,Sua expertise abrange uma variedade de temas, tais como transferência de calor e dinâmica dos fluidos computacional, problemas inversos, otimização de sistemas térmicos, modelagem computacional de ciclos de potência a gás e a vapor, gaseificação e pirólise de biomassa, entre outros.,Parcerias Estratégicas e Projetos de P&D,O Prof. Dr. Solidônio lidera projetos estratégicos de Pesquisa e Desenvolvimento (P&D), colaborando com instituições como a Receita Federal em iniciativas de aproveitamento energético de cargas apreendidas. Além disso, mantém parcerias com empresas públicas e privadas na área de “Aproveitamento Energético e Geração de Energia Elétrica a partir de Resíduos Sólidos”, demonstrando seu compromisso com soluções inovadoras e sustentáveis.

 

Conclusão:

O Prof. Dr. Solidônio Rodrigues de Carvalho emerge como uma figura proeminente na comunidade acadêmica e profissional da Engenharia Mecânica. Sua vasta experiência, liderança em pesquisa e compromisso com a formação acadêmica o destacam como uma referência em sua área de atuação, contribuindo significativamente para o avanço do conhecimento e para o desenvolvimento de soluções inovadoras.

Publications:

1.Proposal of a numerical and experimental methodology for simultaneous determination of thermal properties and internal surface temperature: experimental validation using a polyvinyl chloride flat plate

2.Gasification of municipal refuse-derived fuel as an alternative to waste disposal: Process efficiency and thermochemical analysis

3.Chemical and toxicological evaluation along with unprecedented transformation products during photolysis and heterogeneous photocatalysis of chloramphenicol in different aqueous matrices

4.A gas chromatography method for simultaneous quantification of inorganic gases and light hydrocarbons generated in thermochemical processes