Bo Chen | Additive manufacturing | Best Researcher Award

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Prof. Bo Chen | Additive manufacturing | Best Researcher Award

Prof. Bo Chen, Zhejiang University of Technology, China.

Dr. Bo Chen is a dynamic and innovative academic specializing in additive manufacturing, robotics, fluid transmission and control, and metal powder atomization. With a solid educational foundation from Yanshan University, he has advanced rapidly in his career at Zhejiang University of Technology, progressing from Lecturer to Associate Professor. His research is driven by solving real-world industrial challenges, particularly in the field of supersonic nozzles and multi-phase flow systems. Backed by numerous national and provincial research grants, Dr. Chen has established himself as a leader in his field, blending advanced simulation techniques with hands-on engineering solutions.

Profile

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🎓 Early Academic Pursuits

Dr. Bo Chen embarked on his academic journey with a profound interest in engineering and materials science. He completed his Bachelor of Engineering in Material Processing and Control Engineering from Yanshan University in 2013. His strong foundation and passion led him to pursue a Master’s degree in Material Processing Engineering, which he successfully completed in 2015. Eager to deepen his expertise, he earned his Doctorate in Fluid Transmission and Control in 2018, also from Yanshan University. His early academic years were marked by a steady focus on engineering principles, laying a strong groundwork for his future endeavors in advanced manufacturing technologies.

🏫 Professional Endeavors

Dr. Chen’s professional journey is rooted in Zhejiang University of Technology, where he has steadily grown through academic ranks. Beginning as a Lecturer in April 2019, his dedication and innovation in the fields of additive manufacturing and robotics earned him the position of Associate Professor by April 2021. As a faculty member at the College of Mechanical Engineering and a contributor to the Key Laboratory of Special Purpose Equipment and Advanced Processing Technology, he has consistently been involved in pioneering research and mentoring the next generation of engineers.

🧪 Contributions and Research Focus

A multifaceted researcher, Dr. Chen’s core research interests span additive manufacturing, metal powder atomization, robotics, fluid transmission and control, and advanced manufacturing processes for composites. His work is often rooted in the application of finite element methods to solve complex engineering problems. He is particularly noted for his innovative contributions to the development and control of supersonic nozzles, where multiphase dynamics and coupled field interactions are analyzed to enhance performance and efficiency in high-precision manufacturing systems.

🧠 Pioneering Projects and Innovation

Dr. Chen has led and participated in numerous prestigious research projects funded by national and provincial institutions. His ongoing projects include investigations into multiphase coupling damage mechanisms in aero-engine nozzles, interfacial behavior in supersonic environments, and multi-field coupled atomization mechanisms. These projects, funded by organizations such as the National Natural Science Foundation of China and the China Postdoctoral Science Foundation, demonstrate the national importance and technical depth of his research. His innovations aim to address real-world industrial challenges, especially in aerospace and high-performance manufacturing sectors.

🏆 Accolades and Recognition

Recognized for his impactful research, Dr. Chen has received continuous support from competitive funding agencies. His ability to secure grants from both national foundations and postdoctoral programs reflects his excellence in research proposal writing, technical feasibility, and scientific relevance. These recognitions not only affirm his standing in the academic community but also support his long-term research and development activities, enabling him to lead cutting-edge projects in fluid power systems and mechanical design.

🌍 Impact and Influence

Dr. Chen’s research resonates across the global scientific and industrial community, particularly in the areas of advanced manufacturing and control systems. His studies on nozzle design and fluid control have implications for aerospace propulsion, robotics, and smart manufacturing. Through his role as a professor and researcher, he influences both academic peers and students, fostering a culture of innovation and scientific curiosity. His publications and project outcomes contribute to knowledge dissemination and technology advancement in critical engineering domains.

đź”® Legacy and Future Contributions

As he continues his academic and research pursuits, Dr. Bo Chen is poised to further enhance the understanding and application of fluid dynamics in engineering systems. His future contributions are likely to include intelligent control methods for manufacturing equipment, environmentally efficient atomization technologies, and expanded applications of robotics in material processing. With a solid foundation, a forward-looking research agenda, and a growing body of impactful work, Dr. Chen is establishing a legacy that bridges fundamental science with real-world industrial advancements.

Publication

Title: Atomization process of GH4099 superalloy powder prepared by dual-gas nozzle
Authors: B. Chen, Zheyuan Zhang, Wenying Li, Yilong Zhong, Yanbiao Li
Year: 2025

Title: Effect of soft magnetic particles content on multi-physics field of magnetorheological composite gel clutch with complex flow channel excited by Halbach array arrangement
Authors: Guang Zhang, Jiahao Luo, Min Sun, Teng Shen, Zheng Zhang
Year: 2025

Title: Multi-Physics Coupled Acoustic-Mechanics Analysis and Synergetic Optimization for a Twin-Fluid Atomization Nozzle
Authors: Wenying Li, Yanying Li, Yingjie Lu, Li Zhang, Yanbiao Li
Year: 2024

 

âś… Conclusion

Through his academic rigor, research excellence, and dedication to innovation, Dr. Bo Chen continues to contribute significantly to the advancement of mechanical engineering and manufacturing science. His work not only enriches the scientific community but also addresses critical technological needs in aerospace and precision manufacturing. As he looks to the future, Dr. Chen is well-positioned to influence the next generation of smart manufacturing systems, leaving a lasting impact on both academia and industry.

 

Li Zhiyu | Biomass based chemicals | Best Researcher Award

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Assoc. Prof. Dr. Li  Zhiyu | Biomass based chemicals | Best Researcher Award

Assoc. Prof. Dr.  Li  Zhiyu,  Shandong University of Technology, China.

Dr. zhiyu li is a distinguished scholar in the fields of biomass conversion, bioenergy, and environmental engineering. his academic journey, from mechanical design to agricultural engineering, reflects his deep commitment to sustainability and innovation. as an associate professor and accomplished researcher, dr. li has contributed significantly to thermochemical biomass utilization, bio-oil upgrading, and heavy metal passivation. his work has earned prestigious awards and recognition, highlighting its global impact and relevance.

 

profile

Scopus

Early academic pursuits 🎓

Dr. zhiyu li began his academic journey with a strong foundation in mechanical design and manufacturing, earning his bachelor’s degree in mechanical design & manufacturing and automation from tarim university in 2012. his passion for agricultural engineering led him to pursue a master’s degree in agricultural biological environmental and energy engineering at tarim university, where he graduated in 2015. during this time, he explored innovative approaches to heavy metal passivation in composting processes. building on this interest, dr. li completed his ph.d. in agricultural mechanization engineering at south china agricultural university in 2018, deepening his expertise in biomass conversion and energy systems.

Professional endeavors đź’Ľ

Following his doctoral studies, dr. zhiyu li began his professional career at the college of agricultural engineering and food science, shandong university of technology, where he served as a lecturer from 2018 to 2023. his dedication to teaching and research earned him a promotion to associate professor in 2023. beyond his institutional role, dr. li actively engaged in collaborative research as an academic visitor at prestigious institutions such as tsinghua university (2023-2024) and the qingdao institute of bioenergy and bioprocess technology, chinese academy of sciences (2022). these opportunities expanded his research perspectives and strengthened his collaborations with leading experts in the field.

Contributions and research focus 🔬

Dr. li’s research revolves around the sustainable utilization of biomass resources, bioenergy production, and environmental engineering solutions. his work primarily focuses on the thermochemical conversion of biomass, including pyrolysis and catalytic upgrading of bio-oil. he also investigates the passivation control of heavy metals in solid waste, soil, and livestock manure, as well as the resource recovery of municipal sludge and biogas residues. his multidisciplinary approach addresses critical challenges in biomass utilization and solid waste treatment, contributing to the advancement of biorefinery technologies and environmental sustainability.

Accolades and recognition 🏆

Throughout his career, dr. zhiyu li has garnered significant recognition for his contributions to science and engineering. in 2023, he was honored with the outstanding contribution postdoctoral award in shandong province, a testament to his impactful research. his work on hydrodeoxygenation of bio-oil components was recognized globally as one of the top 1% esi highly cited papers in 2021. previously, he received the second prize of the china national chamber of commerce science and technology progress award in 2022. early in his career, dr. li earned accolades such as the third prize of the xinjiang corps science and technology progress award in 2016 and the excellent master’s thesis award in xinjiang autonomous region in 2015, highlighting his consistent excellence in scientific exploration.

Impact and influence 🌿

Dr. li’s research has made a profound impact on the fields of biomass energy, bio-oil upgrading, and solid waste treatment. his innovative approaches to thermochemical biomass conversion have advanced clean energy technologies, contributing to sustainable solutions for energy production. his work on heavy metal passivation has provided practical strategies for mitigating environmental pollution in agricultural and industrial systems. dr. li’s influence extends beyond research, as he actively mentors students and collaborates with global experts to push the boundaries of environmental engineering and bioenergy.

Legacy and future contributions 🌟

Dedicated to addressing global energy and environmental challenges, dr. zhiyu li continues to shape the future of bioenergy and waste management. his research legacy lies in developing technologies that convert biomass and waste into valuable resources while minimizing environmental harm. Biomass-based chemicals. as a leader in his field, dr. li envisions advancing biorefinery technologies, promoting green innovations, and fostering a new generation of researchers committed to sustainability. his ongoing work promises to leave a lasting impact on global efforts to achieve a cleaner and more energy-efficient future.

Teaching and mentorship đź“š

Biomass-based chemicals  addition to his research achievements, dr. zhiyu li is deeply committed to education and mentorship. he teaches courses in agricultural biological environmental and energy engineering, inspiring students to explore sustainable engineering solutions. dr. li’s dedication to student development and his hands-on teaching approach ensure that future engineers are well-equipped to address pressing environmental challenges. through his mentorship, he cultivates a culture of innovation, critical thinking, and scientific inquiry among his students, laying the foundation for continued advancements in the field.

đź“š Publications

  • Title: Energy status, anaerobic digestion and role of genetic and metabolic engineering for hydrogen and methane
    Authors: Shah, T.A., Li, Z., Li, Z., Zhang, A.
    Year: 2025

 

  • Title: Carbon-based catalysts for hydrodeoxygenation of biomass derivatives: A review of heteroatom doping strategies
    Authors: Wang, Z., Li, Z., Zhang, Y., Fu, P.
    Year: 2024

 

  • Title: Rapid pyrolysis of cellulose: Revealing the role of volatile matter and char structure evolution
    Authors: Sun, K., Guo, T., Li, Y., Geng, P., Fu, P.
    Year: 2024

 

  • Title: Jujube shell-derived organic/inorganic nitrogen-doped porous carbon: electrochemical properties and contribution of nitrogen-doped forms to ion adsorption and storage
    Authors: Fan, Q., Li, Z., Sun, Y., Song, C., Fu, P.
    Year: 2024

 

  • Title: Research progress in catalysts for producing higher alcohols from bioethanol
    Authors: Wang, W., Lu, Y., Li, Z., Zhang, Y., Fu, P.
    Year: 2024

 

  • Title: Highly efficient catalysts for hydrogen generation through methanol steam reforming: A critical analysis of modification strategies, deactivation, mechanisms and kinetics
    Authors: Jiang, W., Ma, X., Zhang, D., Li, Z., Fu, P.
    Year: 2024

 

  • Title: Reaction pathways and selectivity in the chemo-catalytic conversion of cellulose and its derivatives to ethylene glycol: A review
    Authors: Li, Y., Zhang, Y., Li, Z., Zhang, H., Fu, P.
    Year: 2024

 

  • Title: Formulation, performance and environmental/agricultural benefit analysis of biomass-based biodegradable mulch films: A review
    Authors: Li, X., Zheng, G., Li, Z., Fu, P.
    Year: 2024

 

Conclusion

Dr. zhiyu li’s career stands as a testament to the power of scientific inquiry and innovation in addressing global environmental and energy challenges. through his research, teaching, and mentorship, he has paved the way for sustainable technologies and inspired future generations of engineers and scientists. as he continues his work, dr. li remains committed to fostering solutions that bridge the gap between resource utilization and environmental preservation, ensuring a greener and more sustainable future.

 

Bilel Jarraya | Sustainability | Best Researcher Award

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Dr. Bilel Jarraya | Sustainability | Best Researcher Award

Dr. Bilel Jarraya, Qassim University, Saudi Arabia.

Bilel Jarraya, an academic affiliated with the University of Sfax, Tunisia, has established a strong presence in research fields including corporate governance, green energy, and efficiency analysis. Between 2010 and 2024, he has authored 23 publications, with 13 indexed in the Web of Science Core Collection. His work boasts an H-index of 7 and 211 citations, showcasing its impact and relevance in academia.

 

profile

Orcid

🎓 Education and Academic Background

Bilel Jarraya’s educational journey has laid a solid foundation for his expertise in corporate governance, financial efficiency, and sustainability. His academic training has equipped him with the analytical skills and knowledge necessary for his impactful research contributions.

🧑‍🎓 Highlights of His Education:

Specialized in economics and management, focusing on governance frameworks and technical efficiency.Developed advanced expertise in quantitative analysis, optimization methods, and decision-making frameworks.Contributed to multidisciplinary research by combining financial insights with environmental and sustainability studies.

✍️ Verified Reviews

An Efficient Constructive Heuristic for the Cutting Stock Problem Applied in a Foam Mattress Industry.Reviewed: January 2022. Journal: International Journal of Applied Decision SciencesSmall Businesses’ Social Responsibility and Political Activity Survey Studies: A Review, Synthesis, and Research Agenda.Reviewed: December 2021. Journal: SAGE Open.Review Count: 2 manuscripts.Review Period: 2010–2024

🏆 Contribution to Research

Focus on corporate governance, green energy, and efficiency analysis. Researches environmental innovation and sustainable economic models. Significant contributions in the fields of finance, environmental studies, and operational efficiency.

đź“š Publications

  • Analyzing the Profitability and Efficiency in European Non-Life Insurance Industry
    Authors: Bilel Jarraya, Hatem Afi, Anis Omri
    Year: 2023

 

  • Do Environmental Innovation and Green Energy Matter for Environmental Sustainability? Evidence from Saudi Arabia (1990–2018)
    Authors: Montassar Kahia, Bilel Jarraya, Bassem Kahouli, Anis Omri
    Year: 2023

 

  • Do Board Characteristics and Ownership Structure Matter for Bank Non-Performing Loans? Empirical Evidence from US Commercial Banks
    Authors: Tarchouna A., Bilel Jarraya, Bouri A.
    Year: 2022

 

  • The Role of Environmental Innovation and Green Energy Deployment in Environmental Protection: Evidence from Saudi Arabia
    Authors: Montassar Kahia, Bilel Jarraya, Bassem Kahouli, Anis Omri
    Year: 2022

 

  • A New Optimisation Approach to Assess Optimal Asset Allocation in European Non-Life Insurance Companies
    Author: Bilel Jarraya
    Year: 2021

 

  • Does Green Energy Complement Economic Growth for Achieving Environmental Sustainability? Evidence from Saudi Arabia
    Authors: Montassar Kahia, Anis Omri, Bilel Jarraya
    Year: 2021

 

  • Green Energy, Economic Growth and Environmental Quality Nexus in Saudi Arabia
    Authors: Montassar Kahia, Anis Omri, Bilel Jarraya
    Year: 2021

 

  • Non-Performing Loans and Bank Corporate Governance: Conceptual Framework and Literature Review
    Authors: Tarchouna A., Bilel Jarraya, Bouri A.
    Year: 2021

 

  • Earnings Management and Its Applications in Saudi Arabia Context: Conceptual Framework and Literature Review
    Author: Bilel Jarraya
    Year: 2021

 

  • Determinants of Technical Efficiency of Islamic Banks in GCC Countries
    Author: Bilel Jarraya
    Year: 2021

Conclusion

Bilel Jarraya’s body of work highlights his commitment to advancing knowledge in financial governance, environmental sustainability, and operational efficiency. His research sheds light on critical issues such as non-performing loans and the integration of green energy into sustainable economic systems. With a notable publication record and meaningful collaborations, Jarraya has significantly contributed to academia, making him a respected figure in his fields of expertise.