Ramzan Kayabaşı | Renewable Energy | Best Researcher Award

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Dr. Ramzan Kayabaşı | Renewable Energy
| Best Researcher Award

Kayseri University | Turkey

Dr. Ramazan Kayabaşı is a dedicated academic and researcher specializing in mechanical engineering, energy systems, renewable energy technologies, geothermal applications, thermodynamics, and HVAC systems. He earned his Ph.D. in Energy Systems Engineering, conducting experimental research on photovoltaic module performance and thermal behavior. His academic journey spans advanced studies in mechanical engineering and energy technologies, complemented by continuous professional training across safety, project management, environmental sustainability, leadership, and educational planning. Dr. Kayabaşı serves as a Lecturer in the Construction Department at Kayseri University, where he has held numerous academic and administrative roles, including Assistant Director of the Vocational School, Erasmus Coordinator, Research and Application Center Manager, and a member of several strategic planning, quality, performance evaluation, and graduation committees. His teaching portfolio covers a wide range of undergraduate and associate-level courses, such as occupational health and safety, geothermal energy, technical drawing, HVAC systems, renewable energy resources, and environmental protection. His research focuses on sustainable materials, geopolymer concrete, solar and wind energy analysis, occupational safety, and energy-efficient building technologies. Dr. Kayabaşı has published extensively in SCI, Scopus, TRDizin, and peer-reviewed journals, contributing to advancements in energy systems, renewable technologies, and workplace safety. His work reflects a strong commitment to scientific innovation, sustainability, and engineering education.

 Profile: Orcid | Google Scholar

Featured Publications

Ozturk, M., Kayabaşı, R., Yildizhan, H., & Ameen, A. (2025). Resource use efficiency and environmental impacts in strawberry production: An energy–exergy analysis. Energies, 18(21), 5572. https://doi.org/10.3390/en18215572

Özdemir, H., & Kayabaşı, R. (2025). Analysis of work accidents experienced by female employees based on SGK data: 2013–2022. Beykoz Academy Journal. https://doi.org/10.14514/beykozad.1546813

Özdemir, H., Kayabaşı, R., & Cündübeyoğlu, İ. (2025). Analysis of work accidents in the furniture industry in Türkiye between 2013–2023. Bartın Journal of Forestry Faculty. https://doi.org/10.24011/barofd.1596284

Changliang Han | Renewable Energy | Outstanding Work in Energy Award

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Assist. Prof. Dr. Changliang Han | Renewable Energy
| Outstanding Work in Energy Award

Assist. Prof. Dr. Changliang Han |  Fujian Agriculture and Forestry University | China

Assist. Prof. Dr. Changliang Han, Associate Professor at the College of Mechanical and Electronic Engineering, Fujian Agriculture and Forestry University, is a recognized expert in Engineering Energy Thermodynamics, Fluid Dynamics, and Supercritical Fluid Thermodynamics. He holds a Doctor of Engineering degree and serves as a Master’s Supervisor, with active participation as an expert in the Chemical Safety Group of the Fujian Provincial Emergency Management Department. Dr. Han has made notable scholarly contributions, publishing more than twelve SCI-indexed papers in prestigious journals such as Energy, International Journal of Heat and Mass Transfer, Applied Thermal Engineering, Journal of Supercritical Fluids, Cryogenics, Journal of Chemical Engineering, and Chemical Engineering Progress (EI index). He has been awarded the third prize of the Dalian Science and Technology Progress Award and has secured six authorized invention patents. His academic impact is reflected in 248 citations from 174 documents across 25 publications, with an h-index of 9,Scopus ID: 57008558200. Dr. Han has successfully completed one major research project and currently leads three ongoing projects, in collaboration with institutions such as Dalian University of Technology, Fuzhou University, South China University of Technology, and Harbin Titanium Industry Co., Ltd. His research findings advance the theoretical understanding of supercritical and subcritical fluid flow and heat transfer while offering practical solutions for improving LNG vaporizer safety, optimizing heat field organization, and contributing to industrial innovation.

 Profile: Scopus

Featured Publications

Chen, Z., Han, C., Zheng, H., & Wu, Y. (2025). An investigation on convective regasification heat transfer performance of supercritical methane inside horizontal heated circular tubes. Energy. Advance online publication.Chen, Z.,

Han, C., Zheng, H., & Wu, Y. (2025). An investigation on convective regasification heat transfer performance of supercritical methane inside horizontal heated circular tubes. Energy.

Hongbo Teng | Green Technology | Best Researcher Award

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Dr. Hongbo Teng | Green Technology
| Best Researcher Award

Dr. Hongbo Teng | China University of Mining and Technology | China

Dr.Teng Hongbo is a doctoral student in Geological Resources and Geological Engineering at the China University of Mining and Technology. He earned his bachelor’s degree in Geological Engineering from the same institution and entered a direct-entry doctoral program. His research focuses on unconventional natural gas exploration within coal-bearing strata and geological technologies supporting carbon neutrality. As a core member of his research team, he has contributed to two major projects on deep coalbed methane exploration. He has co-authored publications in Processes, Rock and Soil Mechanics, and the Journal of Xi’an University of Architecture & Technology, reflecting his growing impact in energy and geological research.

Professional Profile 

ORCID

Suitability for the Best Researcher Award

Dr.Teng Hongbo, a doctoral student at the China University of Mining and Technology, demonstrates exceptional potential and dedication in geological engineering research. His work on the exploration and development of unconventional natural gas in coal-bearing strata directly supports national energy security and carbon neutrality goals. As a core contributor to projects on deep coalbed methane accumulation and CO₂ flooding storage, he has applied advanced pore structure characterization techniques to reduce exploration risks and improve resource development strategies. With publications in SCI, EI, and core Chinese journals, alongside active industry collaboration with Yanchang Petroleum, Teng has already achieved notable academic impact with 62 citations. His innovative contributions and strong research outcomes make him highly suitable for the Best Researcher Award.

Education 

Dr.Teng Hongbo demonstrates strong suitability for education and advanced research in Geological Resources and Engineering. With a solid foundation in Geological Engineering from China University of Mining and Technology, he has progressed directly into a doctoral program, showcasing academic excellence and commitment. His research addresses critical global challenges, focusing on unconventional natural gas development and carbon-neutral geological technologies. By contributing to key projects on deep coalbed methane exploration, co-authoring SCI and EI papers, and applying innovative pore structure characterization techniques, he has significantly advanced both theory and practice in the field. His work not only reduces exploration risks but also provides vital scientific support for sustainable energy strategies, marking him as an outstanding candidate for higher academic recognition.

Awards and Honors

Dr.Teng Hongbo demonstrates exceptional promise as a young researcher in geological engineering, specializing in unconventional natural gas exploration and carbon-neutral geological technologies. Currently pursuing a direct-entry doctorate at the China University of Mining and Technology, he has significantly contributed to two major projects on deep coalbed methane exploration. His innovative application of multi-scale pore structure characterization has provided new insights into reservoir properties, reducing exploration risks and supporting efficient development strategies. With publications in SCI, EI, and Chinese core journals, a citation record of 62, and active collaboration with Yanchang Petroleum, his research bridges academic excellence and industrial application. His impactful work and dedication to advancing sustainable energy exploration make him highly suitable for the Best Researcher Award.

Research Focus 

Dr.Teng Hongbo’s research primarily centers on the exploration and development of unconventional natural gas within coal-bearing strata, with a strong emphasis on deep coalbed methane (CBM) resources. His work integrates geological engineering, reservoir characterization, and fluid dynamics to address key challenges in efficient and sustainable resource extraction. A major focus is the multi-scale analysis of pore structures in deep coal reservoirs, which helps identify controlling factors of productivity and optimize development strategies. Additionally, he investigates multi-phase and multi-component seepage processes and the mechanisms of CO₂ flooding for CBM recovery, aligning with carbon neutrality goals. His research contributes both theoretical insights and practical approaches to reducing exploration risks and enhancing clean energy utilization.

Publication Top Notes

  • Key Controlling Factors of Deep Coalbed Methane Reservoir Characteristics in Yan’an Block, Ordos Basin: Based on Multi-Scale Pore Structure Characterization and Fluid Mobility Research
    Year: 2025

Conclusion

Dr.Teng Hongbo has made remarkable progress as an early-career researcher, with strong potential for leadership in the fields of unconventional natural gas exploration and carbon-neutral geological technology. His research has already reduced exploration risks and provided vital support for sustainable energy strategies. While further international visibility and independent outputs will enhance his profile, his current contributions position him as a highly deserving candidate for the Best Researcher Award, showcasing both scientific excellence and real-world impact.

Qihui Yu | Renewable Energy | Best Researcher Award

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Mr. Qihui Yu | Renewable Energy | Best Researcher Award

Department Head at Inner Mongolia University of Science & Technology  |  China

Dr. Qihui Yu is an accomplished associate professor at Inner Mongolia University of Science and Technology, with a Ph.D. in Mechatronic Engineering from Beihang University. Specializing in compressed air energy storage and energy-efficient pneumatic systems, he brings over a decade of academic and postdoctoral research expertise. His innovative work integrates thermal and fluid power systems to address energy efficiency challenges. He has served as a visiting scholar at the University of Nottingham, strengthening international collaboration. Dr. Yu has led a National Natural Science Foundation of China (NSFC) project, showcasing his leadership in high-impact research. His technical excellence and commitment to sustainable energy systems make him highly suitable for the Best Researcher Award, recognizing innovation, dedication, and significant contributions to his field.

Professional Profile 

Scopus

Suitability for the Best Researcher Award

Dr. Qihui Yu is highly suitable for the Best Researcher Award due to his significant contributions to the fields of compressed air energy storage, pneumatic system optimization, and thermal energy management. With a Ph.D. from Beihang University and postdoctoral experience in automation and fluid power systems, he has led impactful research at Inner Mongolia University of Science and Technology. His leadership in a National Natural Science Foundation of China project demonstrates national recognition and technical excellence. Dr. Yu’s international academic collaboration as a visiting scholar at the University of Nottingham, coupled with a strong publication record, underscores his innovative work and global research relevance. His work aligns with sustainable energy goals, making him a deserving candidate for this prestigious award.

Education 

Dr. Qihui Yu pursued his academic journey in mechanical and mechatronic engineering across top Chinese institutions. He earned his Ph.D. in Mechatronic Engineering (Fluid Power Drive and Control) from Beihang University (BUAA) between 2010 and 2015, where he focused on advanced energy systems. Prior to that, he completed his master’s degree in Mechanical Electronic Engineering at Zhengzhou University (2007–2010). His undergraduate education in Mechanical Engineering and Automation was obtained from Henan University of Science and Technology (2003–2007). Throughout his education, Dr. Yu developed a strong foundation in fluid dynamics, automation, and thermal energy, laying the groundwork for his future contributions to energy-saving pneumatic and heat storage systems.

Work Experience 

Dr. Qihui Yu is currently an associate professor at Inner Mongolia University of Science and Technology, a position he has held since 2018, following his earlier role as a lecturer (2016–2018). He also spent a year (2021–2022) as a visiting scholar at the University of Nottingham, UK, enhancing his international research exposure. From 2014 to 2016, he served as a postdoctoral fellow at Beihang University’s School of Automation Science and Electrical Engineering. His diverse roles in academia, research, and international collaboration reflect a career dedicated to the advancement of energy storage and fluid power technologies. His trajectory highlights both technical leadership and consistent growth in academic responsibility and recognition.

Awards and Honors

Dr. Qihui Yu has earned recognition for his contributions to energy systems and engineering innovation. While specific award titles are not listed, his selection as a project leader for the National Natural Science Foundation of China (NSFC) underscores his standing in the academic and engineering research community. His appointment as a visiting scholar at the University of Nottingham further signifies his scholarly impact and collaborative value. His progressive academic promotions—from lecturer to associate professor—also reflect institutional acknowledgment of his research performance and teaching excellence. Dr. Yu’s track record and leadership in high-value research initiatives affirm his eligibility for esteemed awards such as the Best Researcher Award, celebrating sustained achievement and future promise.

 Research Focus 

Dr. Qihui Yu’s research is centered on compressed air energy storage (CAES), pneumatic energy-saving systems, and heat storage technology. He explores the thermodynamic behavior of gas-liquid interactions and energy optimization under variable spatial constraints. As principal investigator of a NSFC project (52465008), he investigates quasi-isothermal CAES processes to improve system efficiency. His work bridges theory and application, enhancing the performance and sustainability of modern energy storage solutions. With a strong focus on renewable and efficient energy systems, Dr. Yu contributes to national strategies for green technology development. His research has broad implications for industries seeking low-carbon solutions and positions him as a key innovator in mechanical and energy engineering.

 Publication Top Notes

Water spray heat transfer gas compression for compressed air energy system,

Year: 2021

Compressed air energy storage capacity configuration and economic evaluation considering the uncertainty of wind energy

Year: 2022

Experimental and performance study of spray heat transfer‑based compressed air quasi‑isothermal expansion system

Year: 2023

Performance analysis of an innovative kind of two‑stage piston type expansion air engine

Year: 2018

Comparative study on air distribution system for piston‑type compressed air engine

Year: 2017

Fuzzy logic speed control for the engine of an air‑powered vehicle

Year: 2016

Optimization study on a single‑cylinder compressed air engine

Year: 2015

A review of compressed‑air energy storage

Year: 2019

Citations: 6

Conclusion

Dr. Qihui Yu is a highly competent and dedicated researcher in the field of energy-efficient pneumatic systems and compressed air energy storage. His record of managing national research projects, his innovative focus on gas-liquid heat and mass transfer, and his evolving academic trajectory support his candidacy for the Best Researcher Award. His contribution addresses pressing global challenges in sustainable energy and mechanical efficiency, making him a valuable contributor to engineering research. With further expansion of his international collaborations, higher-impact publications, and broader dissemination of his work, Dr. Yu is well-positioned to grow into a leading voice in his field. He is a worthy nominee whose potential for continued research excellence is both clear and promising.