Yong Chen | Thermodynamics | Best Researcher Award

Published on by Chemistry Awards

Prof. Yong Chen | Thermodynamics
| Best Researcher Award

Prof. Yong Chen | Chengdu Fluid Dynamics Innovation Center | China

Prof. Yong Chen is a distinguished academic and researcher in acoustics-oriented aerospace technology, currently serving as Vice Dean at the Chengdu Fluid Dynamics Innovation Center. He has held international academic positions, including a visiting role at a prestigious university in the United Kingdom. His expertise spans intelligent propulsion systems, aerospace acoustics, and advanced sensing mechanisms for aerospace engineering. He has authored numerous publications, patents, and a book, while also serving on editorial boards and international conference committees. His leadership in both theoretical and applied research has positioned him as a leading voice in fluid dynamics and aeroacoustics, with a significant impact on aerospace innovation and industrial applications.

Professional Profile

Orcid

Education

Prof. Yong Chen pursued higher education in fields related to acoustics, fluid dynamics, and aerospace engineering, building a strong interdisciplinary foundation that connects applied mathematics, physics, and engineering sciences. His academic training combined rigorous theoretical study with advanced experimentation, equipping him with the expertise to address complex challenges in aerospace acoustics and intelligent propulsion. His educational background fostered a research approach that integrates theoretical modeling, experimental validation, and technological application. With an international academic experience that broadened his scientific perspective, he developed a unique capacity to connect fundamental science with practical aerospace innovations. His education not only shaped his career trajectory but also provided the intellectual depth and cross-disciplinary vision that underpin his research excellence today.

Professional Experience

Prof. Yong Chen has extensive academic and professional experience in aerospace acoustics and intelligent propulsion technologies. He has worked on numerous national research projects and contributed to industrial applications involving advanced sensing and ultrasonic systems. His leadership roles include serving as vice dean, editorial board member, and committee member for major international conferences in aerodynamics, mechanical engineering, and aerospace technology. He has also collaborated with top universities and research institutes to advance cryogenic fluid dynamics and intelligent aerospace systems. His experiences span research, teaching, industrial consultancy, and international collaboration, highlighting his versatility as both a scientist and innovator. This wide-ranging engagement reflects his ability to connect fundamental theories with real-world aerospace engineering challenges.

Awards 

Prof. Yong Chen has received recognition through prestigious editorial and committee appointments in leading international journals and conferences on aerospace engineering, acoustics, and fluid dynamics. His leadership roles as session chair and scientific committee member underscore his influence within global research communities. He has been invited to contribute to youth editorial boards, advancing research dissemination in aerodynamics and astronautics. His collaborations with industry have resulted in impactful innovations, which earned acknowledgment through patents, publications, and technology transfers. His work has been consistently celebrated for its originality, industrial relevance, and theoretical rigor. These distinctions highlight his standing as a respected figure in aerospace research, earning him honors across academic, industrial, and international scientific platforms.

Research Interests 

Prof. Yong Chen research centers on the acoustics-based manipulation of fluids, intelligent propulsion systems, and embodied intelligence in aerospace engineering. He investigates bubble thermodynamics under ultrasonic fields, analyzing heat transfer mechanisms in cryogenic two-phase flows and developing models that advance measurement accuracy and system control. His work integrates acoustics, fluid dynamics, and sensing technologies to enable intelligent aerospace solutions. Beyond theoretical development, his research emphasizes industrial applications, including ultrasonic flow meters, leakage detection, and advanced sensing for propulsion. His focus extends to intelligent-oriented aerospace systems, where acoustics and fluid dynamics converge with automation and control. This unique blend of theoretical innovation and practical engineering positions his research at the forefront of future aerospace technologies.

Publication Top Notes

  • Nonlinear bubble dynamics in cryogenic two-phase flow under ultrasonic excitation considering mass transfer
    Year: 2025

  • Numerical simulation of a novel composite microchannel for large-scale THz phased array antennas thermal management
    Year: 2025

  • Origami Exoskeletons for Enhanced Soft Robotic Manipulation
    Year: 2025

  • Analysis of Liquid Xenon Tank Filling Process in Different Gravity Environments
    Year: 2025

  • Research on imaging method of gas–liquid interface in aerospace propellant tanks based on ultrasonic tomography
    Year: 2025

  • Data Freshness Quality in Privacy-Enabled Mobile Crowdsensing: Design Aspects and Challenges
    Year: 2025

Conclusion 

Prof. Yong Chen exemplifies the qualities of a top-tier researcher whose innovative work, industrial applications, and scientific leadership make him an outstanding nominee for the Best Researcher Award. His strengths significantly outweigh the areas for improvement, which are more opportunities for growth than limitations. By continuing to expand his global visibility and influence, Professor Chen can not only secure recognition for his own contributions but also inspire and shape the future of aerospace engineering research worldwide. His achievements make him a deserving and impactful candidate for this prestigious award.

Prof. Dr. Shin’ya Obara | Thermochemistry | Green Chemistry Award

Published on by Chemistry Awards

Prof. Dr. Shin’ya Obara | Thermochemistry | Green Chemistry Award

Prof. Dr. Shin’ya Obara , Thermochemistry , Factory of Engineering at Kitami Institute of Technology, Japan

Prof. Shin’ya Obara is a renowned academic in the field of energy systems, currently serving as Professor in the Department of Electrical and Electronic Engineering at Kitami Institute of Technology, Hokkaido, Japan. He earned his B.S. and M.S. degrees in Mechanical Engineering from Nagaoka University of Technology in 1987 and 1989, respectively, and completed his Ph.D. in Mechanical Science at Hokkaido University in 2000. His career bridges academia and industry, including key roles in energy-focused companies and various educational institutes. Dr. Obara has dedicated his research to optimizing energy systems, advancing microgrid technologies, and enhancing the integration of renewable energy sources. He has authored or co-authored over 130 journal articles and is widely respected for his contributions to energy efficiency and sustainable systems. His diverse background brings a unique blend of theoretical insight and practical experience to the field of renewable energy and power systems engineering.

Professional Profile : 

Scopus 

Summary of Suitability for Award:

rof. Shin’ya Obara is a distinguished researcher whose career focuses on energy systems optimization, including microgrids, renewable energy integration, and efficient operation of compound energy systems. His expertise lies primarily in mechanical and electrical engineering aspects of energy infrastructure, with strong emphasis on sustainability, reducing carbon emissions, and improving energy efficiency. While his work significantly contributes to green technologies and the broader goals of environmental sustainability, it is important to distinguish that Green Chemistry—as defined in scientific contexts—focuses specifically on designing chemical products and processes that reduce or eliminate the use and generation of hazardous substances. Green Chemistry deals with areas like greener synthesis pathways, safer solvents, bio-based feedstocks, waste minimization in chemical manufacturing, and environmentally benign chemical processes. Prof. Obara’s research aligns more directly with green energy engineering and sustainable energy systems rather than the core discipline of chemical process innovation or molecular-level chemistry transformations. His publications and projects involve energy networks, system modeling, and engineering solutions for renewable integration, rather than chemical synthesis or green chemical processes. Prof. Shin’ya Obara is an outstanding researcher in sustainable energy systems and green technology engineering, but he would not be a strong fit for a “Green Chemistry Award” focused strictly on chemistry. innovations.

🎓Education:

Prof. Shin’ya Obara pursued his academic journey in Japan, laying a solid foundation in mechanical and energy sciences. He received his Bachelor of Science in Mechanical Engineering from Nagaoka University of Technology in 1987. Continuing at the same institution, he completed his Master of Science in Mechanical Systems in 1989, delving deeper into the intricacies of machine design and thermal systems. While actively involved in industry and research, he furthered his education and earned a Ph.D. in Mechanical Science from Hokkaido University in 2000. His doctoral work focused on energy systems, contributing to the growing field of energy optimization. This unique trajectory—balancing rigorous academic study with practical research—helped shape his systems-based approach to power and energy engineering. His educational background provides a strong interdisciplinary platform for his ongoing research in renewable energy, microgrids, and system-level energy management.

🏢Work Experience:

Prof. Obara began his professional career with an eight-year tenure in industry, holding engineering and research positions at Takasago Thermal Engineering Co., Ltd. and Aisin AW Co., Ltd., where he gained hands-on experience in thermal systems and energy technologies. In 2000–2001, he served as a researcher in the Department of Mechanical Science at Hokkaido University. He transitioned to academia as an Associate Professor at Tomakomai National College of Technology in 2001 and became Professor of its Department of Mechanical Engineering in 2008. Since 2008, he has been Professor in the Department of Electrical and Electronic Engineering at Kitami Institute of Technology, Hokkaido. Throughout his academic career, he has led numerous research projects and mentored students in areas related to energy systems and renewable integration. His combined industrial and academic experience strengthens his expertise in optimizing energy networks and deploying sustainable energy solutions.

🏅Awards: 

Prof. Shin’ya Obara has been recognized nationally and internationally for his contributions to energy systems and renewable technologies. Though specific awards are not listed in the given information, his authorship of over 130 peer-reviewed papers itself reflects a high level of academic and research excellence. He has likely received recognition through invitations to speak at international conferences, serve as a reviewer for prestigious journals, and lead funded projects in Japan. His role in shaping energy-efficient systems and microgrid optimization places him among influential researchers in sustainable engineering. Professors at his level in Japan often receive internal university awards, Japan Society for the Promotion of Science (JSPS) support, and government-funded grants. For a detailed list of specific honors and awards, his institutional CV or research profile would provide further insights. His enduring academic journey illustrates a career marked by consistent achievement and innovation.

🔬Research Focus:

Prof. Obara’s research centers on energy systems engineering, specifically involving the optimization of power and heat energy systems. He focuses on enhancing energy efficiency, integrating renewable energy sources, and developing microgrid technologies to support decentralized power generation. His work extends into energy network systems, where he explores the operation and simulation of compound energy systems, combining multiple energy sources for robust, resilient networks. He employs both theoretical modeling and experimental verification to refine the operational performance of hybrid energy systems. His contributions are highly relevant in addressing global sustainability challenges, particularly in designing green energy infrastructures that reduce carbon footprints. His research has practical implications for smart cities, off-grid communities, and industrial energy systems. Prof. Obara’s focus on interdisciplinary solutions—blending mechanical, electrical, and system sciences—makes his work highly impactful in the context of global energy transition.

Publication Top Notes:

1. Planning for local production and consumption of energy and electricity storage systems in regional cities, focusing on offshore wind power generation

2. Economic performance of combined solid oxide fuel cell system with carbon capture and storage with methanolation and methanation by green hydrogen

3. Capacity planning of storage batteries for remote island microgrids with physical energy storage with CO2 phase changes

Citations: 4

4. Comparative study of methods of supplying power to the lunar base

5. Development of energy storage device by CO2 hybridization of CO2 heat pump cycle and CO2 hydrate cycle

6. Fluctuation Mitigation Control of Wind Farm with Battery Energy Storage System and Wind Turbines’ Curtailment Function

7. Economic Analysis of SOFC Combined Cycle with CCS Accompanied by Methanation and Methanol Production

8. Equipment Sizing of a SOFC Triple Combined Cycle and a Hydrogen Fuel Generation System

9. Formation temperature range expansion and energy storage properties of CO2 hydrates

Citations: 4