Jun Qiu | Water Security | Innovative Water Solutions Award

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Prof. Dr. Jun Qiu | Water Security | Innovative Water Solutions Award

Professor at Beijing Normal University, China

Professor Jun Qiu is a distinguished researcher specializing in atmospheric water harvesting and hydrological innovations, currently serving as a full professor at Beijing Normal University. With a strong academic foundation in Mechanics from Tsinghua University and research experience at Columbia University, he has pioneered the use of acoustophoretic technology for water resource utilization. Leading multiple nationally and internationally funded projects, he has significantly contributed to cloud water resource management, drought intervention, and precipitation enhancement. His work has resulted in 23 granted patents, including five PCT international patents, and the successful commercialization of innovative water solutions, such as the pulse low-frequency acoustic technology, which generated 20 million RMB in revenue. With nearly 70 SCI journal publications and 1,590 citations, his research is widely recognized. While his focus has been China-centric, his technologies have the potential for global impact on water sustainability and drought mitigation.

Professional Profile 

Education

Professor Jun Qiu holds a Bachelor’s, Master’s, and Ph.D. in Mechanics from Tsinghua University, one of China’s most prestigious institutions. During his doctoral studies, he spent a year at Columbia University, further expanding his expertise in advanced hydromechanics and environmental engineering. His interdisciplinary background in mechanics and hydrology has laid a strong foundation for his pioneering research in atmospheric water harvesting and hydrological innovations. His education and international exposure have played a crucial role in shaping his approach to solving global water resource challenges through cutting-edge acoustic and fluid dynamics technologies.

Professional Experience

Professor Jun Qiu has an extensive professional career in hydrology, atmospheric water harvesting, and environmental engineering. He began his academic journey as a researcher at Tsinghua University before becoming a full professor at Beijing Normal University. Over the years, he has led multiple high-impact research projects funded by the National Natural Science Foundation of China and other governmental agencies, focusing on cloud water resource utilization, precipitation enhancement, and water scarcity solutions. His expertise in acoustophoretic technology has resulted in 23 granted patents, with successful commercialization generating millions in revenue. Beyond academia, he has collaborated with industries and governmental bodies to develop practical water solutions, such as the Reflective Air Acoustic Horn and pulse low-frequency acoustic technology. His work has significantly advanced innovative water resource management and has the potential for global application in drought mitigation and environmental conservation.

Research Interest
Professor Jun Qiu’s research interests lie at the intersection of hydrology, atmospheric water harvesting, and environmental fluid mechanics, with a strong focus on acoustic-based water resource technologies. His work explores acoustophoretic mechanisms to enhance cloud water utilization, precipitation conversion, and drought mitigation strategies. He is particularly interested in joint atmospheric-ground water regulation, developing novel acoustic and mechanical approaches to improve water sustainability in arid and river source regions. His research also extends to artificial rain enhancement, mesenchymal stem cell differentiation via acoustics, and advanced meteorological radar technologies. Through interdisciplinary innovation, Professor Qiu aims to provide sustainable, scalable solutions to global water challenges, bridging fundamental hydrological science with practical environmental applications.

Award and Honor

Jun Qiu has received numerous awards and honors in recognition of his outstanding contributions to hydrology and environmental engineering. His innovative research in atmospheric water harvesting and hydrological resource management has earned him prestigious national and international accolades. As a principal investigator of multiple high-impact projects funded by the National Natural Science Foundation of China, his work has been widely recognized for its scientific and industrial significance. Additionally, his pioneering patents and successful technology transfers have garnered industry recognition, further solidifying his reputation as a leader in hydrological innovation. His academic achievements, coupled with his real-world impact, have made him a distinguished figure in the field of water resource science.

Conclusion

Professor Jun Qiu has received numerous awards and honors in recognition of his contributions to hydrology, atmospheric water harvesting, and environmental technology. His groundbreaking research in acoustic-based water resource utilization has earned him prestigious national and international accolades, including funding from the National Natural Science Foundation of China and leadership roles in major government-backed research initiatives. His patented technologies, such as the Reflective Air Acoustic Horn and pulse low-frequency acoustic technology, have been successfully commercialized, generating significant industrial impact. With nearly 70 SCI journal publications and over 1,500 citations, he has been acknowledged for his academic excellence and innovation. His contributions continue to shape advancements in hydrological engineering and sustainable water solutions, making him a leading figure in the field.

Publications Top Noted

Here is the list of publications including Title, Authors, Year, and Citations:

  1. Atmospheric Water Resources and Their Exploitability in the Middle East

    • Authors: F. Li, Fangfang; H. Lu, Houliang; H. Wang, Hongru; P. Sun, Peng; J. Qiu, Jun

    • Year: 2025

    • Citations: 0

  2. Multi-objective optimization of non-fossil energy structure in China towards the carbon peaking and carbon neutrality goals

    • Authors: M. Li, Mengjia; F. Li, Fangfang; J. Qiu, Jun; N. Zhang, Nan; Z. Song, Zhengyu

    • Year: 2024

    • Citations: 0

  3. Long-Term Capturability of Atmospheric Water on a Global Scale (Open Access)

    • Authors: F. Li, Fangfang; H. Lu, Houliang; G. Wang, Guangqian; J. Qiu, Jun

    • Year: 2024

    • Citations: 0

  4. Potential impact of precipitation temporal structure on meteorological drought and vegetation condition: A case study on Qinghai-Tibet Plateau (Open Access)

    • Authors: H. Lu, Houliang; J. Qiu, Jun; B.X. Hu, Bill Xiao; F. Li, Fangfang

    • Year: 2024

    • Citations: 1

  5. Optimizing reservoir operation incorporating ecological demand and stability requirement

    • Authors: J. Qiu, Jun; C. Ma, Cang; H. Wang, Hongru; H. Li, Houjun; F. Li, Fangfang

    • Year: 2024

    • Citations: 0

  6. An improved cross-correlation method for efficient clouds forecasting

    • Authors: H. Zuo, Huimin; J. Qiu, Jun; F. Li, Fangfang

    • Year: 2024

    • Citations: 0

  7. A developed Criminisi algorithm based on particle swarm optimization (PSO-CA) for image inpainting

    • Authors: F. Li, Fangfang; H. Zuo, Huimin; Y. Jia, Yinghui; J. Qiu, Jun

    • Year: 2024

    • Citations: 4

  8. A Remote Sensing Water Information Extraction Method Based on Unsupervised Form Using Probability Function to Describe the Frequency Histogram of NDWI: A Case Study of Qinghai Lake in China (Open Access)

    • Authors: S. Liu, Shiqi; J. Qiu, Jun; F. Li, Fangfang

    • Year: 2024

    • Citations: 5

 

 

 

Fangfang Li | Water-Energy Nexus | Women Researcher Award

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Prof. Fangfang Li | Water-Energy Nexus | Women Researcher Award

Professor at China Agricultural University, China

Professor Fangfang Li is a distinguished researcher in water resources management and hydro-PV-wind energy systems, currently serving as a professor at China Agricultural University. With a Ph.D. from Tsinghua University and visiting research experience at Cornell and Cambridge, she has led numerous high-impact projects funded by the National Natural Science Foundation of China. Her research focuses on optimizing renewable energy integration, ecological water scheduling, and uncertainty reduction in hydropower operations. She has published 68 SCI papers, holds 6 invention patents and 4 software copyrights, and has received prestigious honors such as the Young Changjiang Scholar Award. Her work extends beyond academia through consultancy projects that contribute to real-world hydrological and energy solutions. With an h-index of 17 and over 1,192 citations, Professor Li’s contributions significantly advance sustainable water and energy management.

Professional Profile 

Education

Professor Fangfang Li holds a bachelor’s and a Ph.D. from Tsinghua University, one of China’s most prestigious institutions. She further expanded her academic experience through visiting research at Cornell University and the University of Cambridge, where she deepened her expertise in water resources management and renewable energy systems. Her strong educational foundation has played a crucial role in shaping her research focus on hydrology, multi-energy systems, and ecological water scheduling, positioning her as a leading expert in the field.

Professional Experience

Professor Fangfang Li is a distinguished researcher and professor at China Agricultural University, specializing in water resources management and hydro-PV-wind energy systems. She has led numerous high-impact research projects, including those funded by the National Natural Science Foundation of China and other prestigious institutions. Her career includes postdoctoral research at China Three Gorges Corporation, where she contributed to optimizing hydropower operations. As a principal investigator, she has spearheaded projects on multi-energy complementary systems, ecological water scheduling, and climate-resilient hydropower management. In addition to her academic contributions, she has worked on industry consultancy projects, developing innovative solutions for flood scheduling, ecological conservation, and sustainable energy integration. With her extensive experience in research, innovation, and real-world applications, Professor Li continues to make significant advancements in the field of hydrology and renewable energy.

Research Interest

Professor Fangfang Li’s research interests lie at the intersection of water resources management, renewable energy integration, and ecological hydrology. She focuses on optimizing multi-energy complementary systems, particularly hydro-PV-wind energy, to enhance sustainability and efficiency in power generation. Her work also addresses uncertainty reduction in hydropower operations, aiming to improve forecasting and decision-making in water and energy systems. Additionally, she is deeply engaged in ecological water scheduling, developing models that balance energy production with environmental conservation. Her research extends to atmospheric water resources, cloud water utilization, and climate change impacts on hydrological processes, contributing to the advancement of sustainable water and energy management.

Award and Honor

Professor Fangfang Li has received numerous prestigious awards and honors in recognition of her outstanding contributions to water resources management and renewable energy research. She was honored with the Young Changjiang Scholar Award, a highly regarded distinction in China that recognizes exceptional academic achievements. Her innovative research in hydro-PV-wind energy systems and ecological water management has earned her leadership roles in multiple national research projects funded by the National Natural Science Foundation of China. In addition to her scholarly achievements, her work has been acknowledged by leading hydrology and energy institutions, further solidifying her reputation as a pioneering researcher in sustainable water and energy systems.

Conclusion

Professor Fangfang Li is an exceptional candidate for the Women Researcher Award. Her contributions to hydrology, renewable energy, and ecological water management are both academically rigorous and practically impactful. Her leadership in high-profile projects and technological innovations further solidify her eligibility. Enhancing global collaborations and advocating for women in STEM would further strengthen her case. Overall, she is highly suitable for this award.

Publications Top Noted

  • Atmospheric Water Resources and Their Exploitability in the Middle East

    • Authors: F. Li, Fangfang; H. Lu, Houliang; H. Wang, Hongru; P. Sun, Peng; J. Qiu, Jun

    • Year: 2025

    • Citations: 0

  • Multi-objective optimization of non-fossil energy structure in China towards the carbon peaking and carbon neutrality goals

    • Authors: M. Li, Mengjia; F. Li, Fangfang; J. Qiu, Jun; N. Zhang, Nan; Z. Song, Zhengyu

    • Year: 2024

    • Citations: 0

  • Long-Term Capturability of Atmospheric Water on a Global Scale (Open Access)

    • Authors: F. Li, Fangfang; H. Lu, Houliang; G. Wang, Guangqian; J. Qiu, Jun

    • Year: 2024

    • Citations: 0

  • Potential impact of precipitation temporal structure on meteorological drought and vegetation condition: A case study on Qinghai-Tibet Plateau (Open Access)

    • Authors: H. Lu, Houliang; J. Qiu, Jun; B.X. Hu, Bill Xiao; F. Li, Fangfang

    • Year: 2024

    • Citations: 1

  • Optimizing reservoir operation incorporating ecological demand and stability requirement

    • Authors: J. Qiu, Jun; C. Ma, Cang; H. Wang, Hongru; H. Li, Houjun; F. Li, Fangfang

    • Year: 2024

    • Citations: 0

  • An improved cross-correlation method for efficient clouds forecasting

    • Authors: H. Zuo, Huimin; J. Qiu, Jun; F. Li, Fangfang

    • Year: 2024

    • Citations: 0

  • A developed Criminisi algorithm based on particle swarm optimization (PSO-CA) for image inpainting

    • Authors: F. Li, Fangfang; H. Zuo, Huimin; Y. Jia, Yinghui; J. Qiu, Jun

    • Year: 2024

    • Citations: 4

 

 

Kaiyan Wang | Hydropower Systems | Best Researcher Award

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Assist. Prof. Dr. Kaiyan Wang | Hydropower Systems | Best Researcher Award

Associate professor at School of Electrical Engineering, Xi’an University of Technology, China

Kaiyan Wang is an Associate Professor and Party Branch Secretary at the School of Electrical Engineering, Xi’an University of Technology. With a strong academic background, he earned his bachelor’s and master’s degrees in Electrical Engineering from Qingdao University and a Doctorate from Xi’an Jiaotong University. His research focuses on power system operation, dynamic economic dispatch, photovoltaic power forecasting, intelligent optimization algorithms, and integrated energy systems. He has published over 20 refereed journal papers in high-impact journals and has applied for 12 Chinese invention patents, demonstrating innovation in energy optimization and sustainability. His research has received significant funding from institutions such as the Natural Science Fund of Shaanxi Province and the State Grid Corporation. Beyond research, he actively contributes to academia by teaching courses on electromechanics, electric network theory, and engineering ethics. His leadership, research excellence, and technological advancements make him a strong candidate for the Best Researcher Award.

Professional Profile 

Education

Kaiyan Wang holds a strong academic background in Electrical Engineering. He earned his bachelor’s and master’s degrees from Qingdao University, where he developed a solid foundation in power systems and electrical engineering principles. He later pursued a Doctoral degree at Xi’an Jiaotong University, specializing in advanced energy systems, optimization algorithms, and renewable energy integration. His academic journey has equipped him with expertise in power system operation, dynamic economic dispatch, and intelligent optimization techniques, which form the core of his research and teaching activities at Xi’an University of Technology.

Professional Experience

Kaiyan Wang has a distinguished professional career in electrical engineering and academia. Since joining Xi’an University of Technology in December 2015, he has served as an Associate Professor and Party Branch Secretary in the School of Electrical Engineering. His expertise spans power system operation, dynamic economic dispatch, photovoltaic power forecasting, and intelligent optimization algorithms. In addition to his research contributions, he teaches courses on electromechanics, electric network theory, and electrical engineering ethics, playing a vital role in shaping future engineers. He has led multiple funded research projects supported by prestigious institutions, including the Natural Science Fund of Shaanxi Province and the State Grid Corporation. With over 20 refereed journal publications and 12 national invention patents, his work significantly contributes to the advancement of energy optimization and integrated energy systems. His leadership, academic contributions, and research innovations establish him as a key figure in the field of electrical engineering.

Research Interest

Kaiyan Wang’s research interests lie in the fields of power system operation, dynamic economic dispatch, photovoltaic power generation forecasting, intelligent optimization algorithms, and integrated energy systems. His work focuses on developing advanced methodologies for optimizing energy distribution, improving the efficiency of renewable energy integration, and enhancing the stability of modern power grids. He is particularly interested in applying artificial intelligence and deep learning techniques to forecast energy demand and optimize multi-energy system scheduling. His research aims to contribute to sustainable energy solutions by improving the reliability and cost-effectiveness of power systems. Through his studies, he seeks to address critical challenges in energy management, grid stability, and intelligent decision-making for future energy systems.

Award and Honor

Kaiyan Wang has received several awards and honors in recognition of his outstanding contributions to electrical engineering research and innovation. His work in power system optimization, renewable energy forecasting, and intelligent energy management has earned him prestigious research grants and funding from institutions such as the Natural Science Fund of Shaanxi Province and the State Grid Corporation. With over 20 refereed journal publications and 12 national invention patents, his research has been widely acknowledged for its impact on energy efficiency and sustainability. His leadership role as Party Branch Secretary at Xi’an University of Technology further reflects his commitment to academic excellence and professional service. Through his innovative research and academic contributions, he continues to receive recognition for advancing the field of electrical engineering.

Conclusion

Kaiyan Wang is a strong candidate for the Best Researcher Award, given his extensive research contributions, innovation in power systems, and significant funding achievements. However, increasing international collaborations, citation impact, and industry applications could further strengthen his candidacy for the award.

Publications Top Noted

  • Title: The Optimal Scheduling of Integrated Energy System Considering the Incentive and Punishment Mechanism of Electric and Thermal Carbon Emission Factors

    • Authors: K. Wang, Kaiyan; H. He, Hengxiang; N. Yang, Ningning; X. Wang, Xiaowei; R. Jia, Rong

    • Year: 2025

    • Citations: 0

  • Title: Short-term Optimal Scheduling of Wind-Photovoltaic-Hydropower-Thermal-Pumped Hydro Storage Coupled System Based on a Novel Multi-Objective Priority Stratification Method

    • Authors: K. Wang, Kaiyan; H. Zhu, Hengtao; J. Dang, Jian; B. Ming, Bo; X. Wu, Xiong

    • Year: 2024

    • Citations: 2

  • Title: Multi-Objective Hierarchical Optimal Scheduling of Combined Power Systems Considering Base Loads

    • Authors: N. Zhao, Ningbo; K. Wang, Kaiyan; P. Li, Peihang; H. Jia, Hongtao; Z. Wang, Zhengmian

    • Year: 2024

    • Citations: 0

 

Yuxiang Ying | Climate Hydrology | Best Researcher Award

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Prof. Dr. Yuxiang Ying | Climate Hydrology | Best Researcher Award

Professor at Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences

Dr. Yuzhong Yang is a Full Professor at the Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences. With over 15 years of research experience, he specializes in permafrost hydrology and environmental studies on the Qinghai-Tibet Plateau. His groundbreaking work includes establishing a 3D water isotope hydrogeochemical monitoring network, developing the first ground ice isotope database, and proposing a permafrost hydrology concept model integrating ice-water phase changes. He has authored 40+ research papers, led 12+ major national research projects, and holds three invention patents. As an editorial committee member and an active contributor to the scientific community, Dr. Yang continues to advance the understanding of permafrost evolution and its hydrological impacts. His contributions make him a strong candidate for the Best Researcher Award, particularly in the Youth Scientist category.

Professional Profile 

Education
Dr. Yuzhong Yang obtained his Ph.D. from the University of Chinese Academy of Sciences (UCAS) in 2014, specializing in frozen soil engineering at the State Key Laboratory of Frozen Soil Engineering. Prior to that, he completed his Master’s degree (2008–2011) at the Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences (CAS). He earned his Bachelor’s degree (2004–2008) from Jilin University, where he studied at the College of Environment and Resources. His academic journey has been focused on permafrost hydrology and environmental research, laying the foundation for his extensive contributions to the field.

Professional Experience

Dr. Yuzhong Yang is a Full Professor at the Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences (CAS), where he has been contributing to permafrost hydrology research. He previously served as an Associate Professor (2019–2024) at the State Key Laboratory of Frozen Soil Engineering. Before that, he worked as a Postdoctoral Researcher (2019–2021) at Michigan Technological University, focusing on forest resources and environmental science. Throughout his career, Dr. Yang has led 12+ national and provincial research projects, published 40+ research papers, and secured three invention patents. His work has significantly advanced the understanding of ground ice hydrology and permafrost evolution, making him a leading researcher in his field.

Research Interest

Dr. Yuzhong Yang’s research focuses on permafrost hydrology and the permafrost environment, particularly in the Qinghai-Tibet Plateau. His work explores ground ice dynamics, ice-water phase changes, and their hydrological impacts. He has developed a 3D water isotope hydrogeochemical monitoring network to study permafrost water cycles and has pioneered a permafrost hydrology concept model that quantifies the contributions of melting ground ice to regional hydrology. Additionally, he established the first ground ice isotope database, providing critical insights into permafrost evolution. His research plays a vital role in understanding climate change effects on frozen soil and hydrological systems.

Award and Honor

Dr. Yuzhong Yang has received recognition for his significant contributions to permafrost hydrology and environmental research. He has been honored with multiple national and provincial research grants, including funding from the National Key R&D Program and the National Natural Science Foundation of China (NSFC). His research achievements have also earned him a place on the Young Editorial Committee of the Journal of Glaciology and Geocryology (since 2025). Additionally, he serves as a committee member of the Youth Working Committee of the China Society of Cryospheric Science, reflecting his leadership in the field. His pioneering work on ground ice isotope databases and permafrost hydrology models has positioned him as a strong contender for prestigious awards, including the Youth Scientist Award.

Conclusion

Dr. Yuzhong Yang has a strong research background in permafrost hydrology, with impactful contributions to the field. His publication record, research leadership, and innovative contributions make him a highly suitable candidate for the Best Researcher Award. Strengthening international collaborations and industry engagements would further enhance his research impact. Given his expertise and leadership in permafrost hydrology, he is a strong contender for the Youth Scientist Award.

Publications Top Noted

  • Title: Seasonal variations in groundwater chemistry and quality and associated health risks from domestic wells and crucial constraints in the Pearl River Delta

    • Authors: X. Zhou, Xingyu; J. Sun, Jia; H. Yi, Hulong; T. Xiao, Tangfu; J. Cui, Jinli

    • Year: 2025

    • Citations: 0

  • Title: Climate warming and wetting pose a severe threat to permafrost engineering stability on the Qinghai–Xizang Plateau

    • Authors: X. Xu, Xiaoming; Z. Zhang, Zhongqiong; B. Tai, Bowen; Y. Yang, Yuzhong; Q. Wu, Qingbai

    • Year: 2025

    • Citations: 0

  • Title: Water budgets in an arid and alpine permafrost basin: Observations from the High Mountain Asia

    • Authors: Q. Wang, Qingfeng; H. Jin, Huijun; D. Luo, Dongliang; V.F. Bense, Victor F.; Q. Wu, Qingbai

    • Year: 2024

    • Citations: 0

Guoqian Chen | Water Resources | Excellence in Hydrology Award

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Prof. Guoqian Chen | Water Resources | Excellence in Hydrology Award

Professor at Peking University, China

Guoqian Chen is a distinguished researcher in environmental sustainability, climate thermodynamics, and carbon neutrality, with a prolific academic career spanning decades. As a professor at Peking University and a leader in systems ecology, he has significantly contributed to understanding global carbon emissions, renewable energy, and environmental resource management. His research, published in high-impact journals such as Nature Communications and Journal of Fluid Mechanics, has earned him multiple accolades, including the Highly Cited Researcher award from Elsevier and Thomson Reuters. With an H-index of 69 (ISI) and over 15,000 citations, his work has shaped global discussions on climate change and sustainable development. Chen has also played a key role in mentoring future researchers, supervising over 40 PhD students, and serving on editorial boards of renowned journals. As a frequent keynote speaker at international conferences, his influence extends beyond academia, driving policy discussions on global carbon management. While his work is primarily theoretical, expanding collaborations with industry and policymakers could further enhance its real-world impact. With his extensive contributions and international recognition, he is a strong contender for the Best Researcher Award.

Professional Profile

Education

Guoqian Chen holds a Ph.D. in Engineering from Peking University, Beijing, China, which he earned in 1989. Prior to that, he completed both his Bachelor’s (1982) and Master’s (1985) degrees in Engineering at Huazhong University of Science and Technology, Wuhan, China. His strong academic foundation in engineering and fluid dynamics has paved the way for his distinguished career in environmental sustainability, climate thermodynamics, and carbon neutrality research.

Professional Experience

Guoqian Chen has an extensive professional career spanning over three decades, primarily in fluid dynamics, thermodynamics, and environmental sustainability. Since 1996, he has been a Professor at Peking University, where he founded and directs the Laboratory of Systems Ecology and Sustainability Science. He also serves as a Distinguished Adjunct Professor at Macau University of Science and Technology since 2022. His international experience includes positions as a Visiting Professor at Hong Kong University (1995-1998) and a Visiting Scientist at the University of Pittsburgh, USA (1993-1995). He previously held faculty positions at Beijing University of Aeronautics and Astronautics (1991-1993) and the Institute of Mechanics, Chinese Academy of Sciences (1989-1991). Additionally, he has contributed to global research collaborations as a Distinguished Adjunct Professor at King Abdulaziz University, Saudi Arabia (2013-2015, 2019-2020). His professional journey reflects his leadership in advancing climate science, carbon neutrality, and environmental resource management through interdisciplinary research and academic mentorship.

Research Interest

Guoqian Chen’s research interests span a wide range of topics in climate thermodynamics, carbon neutrality, renewable energy, and environmental sustainability. His work focuses on planetary thermodynamics, radiation heat engines, and Earth’s entropy budget, providing critical insights into the fundamental principles of climate science. He specializes in carbon metrics, decarbonization management, and ecological flux assessments, using systems ecology, life cycle analysis (SLCA), and input-output modeling to evaluate environmental impacts. His research also extends to environmental systems modeling, computational fluid dynamics (CFD), eco-hydrodynamics, and micro-swimmer motility, contributing to both theoretical and applied aspects of sustainability science. Additionally, he explores global trade imbalances in energy, water, land use, and carbon emissions, influencing policy discussions on international climate action. Through his interdisciplinary approach, Chen integrates engineering, economics, and environmental science to address pressing global challenges related to climate change and sustainable resource management.

Award and Honor

Guoqian Chen has received numerous prestigious awards and honors in recognition of his outstanding contributions to environmental sustainability, climate science, and carbon neutrality research. He has been consistently named an Elsevier Most Cited Chinese Researcher from 2016 to 2024, highlighting the global impact of his work. In 2014, he was recognized as one of The World’s Most Influential Scientific Minds by Thomson Reuters and received the Highly Cited Researchers Award and China Citation Laureates Award for his extensive academic influence. His work has also earned him the ISI Highly Cited Researcher Award (2013, 2014, 2019) and the Elsevier Atlas Award (2018). In 2012, he received the National Award for Science and Technology Progress (Second Prize), further solidifying his reputation as a leading researcher. His groundbreaking contributions to environmental and climate studies have also been acknowledged through a NATURE Research Highlight (2023). These accolades reflect his exceptional impact on academia, policy, and global discussions on sustainability and climate change.

Conclusion

Guoqian Chen is an exceptional candidate for the Best Researcher Award based on his pioneering research, global recognition, interdisciplinary impact, and leadership in environmental and sustainability science. His extensive publications and citation record reflect a highly influential career. While his work is primarily academic and theoretical, expanding collaborations with industry and policymakers could further enhance the real-world impact. Overall, he is a strong contender for the award.

Publications Top Noted

  1. The benefits and burdens of wind power systems in reaching China’s renewable energy goals: Implications from resource and environment assessment

    • Authors: Yilin Li, Xu Tang, Mingkai Liu, Guoqian Chen

    • Year: 2024

    • Citations: 2

  2. Livestock sector can threaten planetary boundaries without regionally differentiated strategies

    • Authors: Chaohui Li, Prajal Pradhan, Xudong Wu, Klaus Hubacek, Guoqian Chen

    • Year: 2024

    • Citations: 1

  3. Transient dispersion of settling gyrotactic microorganisms in an open channel flow

    • Authors: Hanhan Zeng, Weiquan Jiang, Bohan Wang, Zhi Li, Guoqian Chen

    • Year: 2024

    • Citations: 1

  4. Life cycle techno-economic-environmental optimization for capacity design and operation strategy of grid-connected building distributed multi-energy system

    • Authors: Huizhen Han, Yongkai Ge, Qingrui Wang, Xi Chen, Peiru Jian

    • Year: 2024

    • Citations: 2

  5. Migration of confined micro-swimmers subject to anisotropic diffusion

    • Authors: Mingyang Guan, Weiquan Jiang, Luoyi Tao, Guoqian Chen, Joseph Hun Wei Lee

    • Year: 2024

    • Citations: 4

  6. Streamwise dispersion of soluble matter in solvent flowing through a tube

    • Authors: Mingyang Guan, Guoqian Chen

    • Year: 2024

    • Citations: 6

  7. Characterizing suspended particle dispersion in wetland flows: Impact of settling velocity and vegetation factor

    • Authors: Jinlan Guo, Shan Huang, Joseph Hun Wei Lee, Guoqian Chen

    • Year: 2024

    • Citations: 2

  8. Understanding Prandtl fluid flow in conduits with slip boundary conditions: Implications for engineering and physiology

    • Authors: Muhammad Ijaz Khan, S. Ravikumar, Kodi Raghunath, Guoqian Chen, Luoyi Tao

    • Year: 2023

    • Citations: 17

  9. Globalization of forest land use: Increasing threats on climate-vulnerable regions

    • Authors: Siyi Kan, Bin Chen, Guoqian Chen

    • Year: 2023

    • Citations: 2

  10. Pre-asymptotic dispersion of active particles through a vertical pipe: the origin of hydrodynamic focusing

  • Authors: Mingyang Guan, Weiquan Jiang, Bohan Wang, Zhi Li, Guoqian Chen

  • Year: 2023

  • Citations: 7

Yuxiang Ying | Ecohydrology | Best Researcher Award

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Dr. Yuxiang Ying | Ecohydrology | Best Researcher Award

Student at ZheJiang University, China

Yuxiang Ying, a doctoral student at Zhejiang University specializing in fluid mechanics, has made notable contributions to the study of microswimmers in flow fields. His research, published in SCI-indexed journals, explores the hydrodynamic behavior of elongated microswimmers, with potential applications in bioinspired microrobots and medical technologies like precision drug delivery. His work provides valuable theoretical insights into microswimmer efficiency and motion dynamics. While his publication record is strong, he lacks industry collaborations, patents, and professional memberships, which could further enhance his research impact. Overall, his contributions make him a strong candidate for the Best Researcher Award, particularly in theoretical and academic research.

Professional Profile 

Education

Yuxiang Ying is currently pursuing a doctoral degree in fluid mechanics at Zhejiang University, one of China’s leading institutions. His research focuses on the hydrodynamic characteristics of microswimmers in flow fields, contributing to advancements in bioinspired microrobotics and medical applications. Through his academic journey, he has developed expertise in computational modeling and theoretical analysis, leading to multiple publications in reputable scientific journals. His education has provided him with a strong foundation in fluid dynamics, mathematical modeling, and simulation techniques, equipping him with the skills necessary for innovative research in his field.

Professional Experience

As a doctoral researcher at Zhejiang University, Yuxiang Ying has been actively engaged in advanced research on fluid mechanics, with a particular focus on the hydrodynamic behavior of microswimmers in flow fields. His work involves computational modeling and simulations to analyze swimming efficiency, velocity, and interactions with surfaces, contributing to the development of bioinspired microrobots for medical applications. While he has primarily focused on academic research, his findings have been published in SCI-indexed journals, demonstrating his ability to contribute to the scientific community. Although he has not yet undertaken industry projects, patents, or editorial roles, his research potential and growing expertise position him as a promising scholar in his field.

Research Interest

Yuxiang Ying’s research interests lie in the field of fluid mechanics, with a particular focus on the hydrodynamic behavior of microswimmers in complex flow environments. His work explores the swimming efficiency, velocity, and interaction dynamics of microscale robotic swimmers, which have potential applications in biomedical engineering, such as targeted drug delivery and microfluidic systems. Through computational modeling and theoretical analysis, he aims to uncover fundamental principles governing microswimmer motion, contributing to the design and optimization of bioinspired microrobotic systems. His research bridges the gap between fluid dynamics and biomedical applications, offering valuable insights for the development of next-generation microrobots.

Conclusion

Yuxiang Ying demonstrates strong research potential with impactful work in fluid mechanics and microswimmers. His research contributions and publications make him a competitive candidate for the Best Researcher Award. However, expanding his industry engagement, collaborations, and professional memberships could further strengthen his nomination. If the award prioritizes journal publications and theoretical contributions, he is a suitable candidate; however, if practical applications, patents, and collaborations are key factors, he may need additional credentials to be a top contender.

Publications Top Noted

Hydrodynamic behavior of inertial elongated microswimmers in a horizontal channel

International Journal of Non-Linear Mechanics
2024-11 | Journal article
DOI: 10.1016/j.ijnonlinmec.2024.104838
Contributors: Yuxiang Ying; Geng Guan; Jianzhong Lin

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Tatek Wondimu Negash | Water Resources | Best Researcher Award- 1074

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Tatek Wondimu Negash | Water Resources | Best Researcher Award

Agricultural Water Management Researcher at Ethiopia Institute Of Agricultural Research, Melkassa Agricultural Research Center, Ethiopia

Tatek Wondimu Negash is a highly skilled water resource and irrigation engineer with over eight years of research experience in agricultural water management, hydrology, land use, and climate change. Holding a BSc in Water Resources and Irrigation Engineering and an MPhil in Irrigation and Drainage Engineering, his work focuses on optimizing irrigation efficiency and improving water use in semi-arid regions. He has authored multiple peer-reviewed publications on irrigation water allocation, evapotranspiration, and watershed hydrology, demonstrating his expertise in hydrological modeling and data analysis using tools like ArcGIS, ArcSWAT, and AquaCrop. As a researcher at the Ethiopia Institute of Agricultural Research, he collaborates with farmers, government agencies, and research institutions to implement sustainable irrigation practices. His contributions have earned him recognition, including a prestigious Master’s Scholarship from WACWISA, Ghana, and an Editorial Board membership for the International Analytical Chemistry Awards. With strong technical skills, stakeholder engagement experience, and a commitment to advancing water resource management, Tatek stands out as a leading researcher in his field.

Professional Profile 

Education

Tatek Wondimu Negash holds a Bachelor of Science (BSc) degree in Water Resources and Irrigation Engineering from Hawassa University, Ethiopia, where he developed a strong foundation in agricultural water management and irrigation system design. He further advanced his expertise by earning a Master of Philosophy (MPhil) in Irrigation and Drainage Engineering from the University for Development Studies in Ghana. His master’s research focused on the impact of land use and land cover change on watershed hydrology, reflecting his deep interest in sustainable water resource management. Throughout his academic journey, he has acquired specialized training in hydrological modeling, irrigation technologies, and integrated water resource management, enhancing his skills in data analysis and research methodologies. His education, combined with professional development courses in Python, Jupyter, and data analysis, has equipped him with the technical proficiency needed for high-impact research

Professional Experience

Tatek Wondimu Negash is an experienced water resource and irrigation engineer and researcher at the Ethiopia Institute of Agricultural Research (EIAR), Melkassa Agricultural Research Center. With over eight years of professional experience, he has been actively involved in developing research proposals and conducting studies on agricultural water management, hydrology, land use, and climate change. His work focuses on optimizing irrigation efficiency by evaluating and demonstrating appropriate irrigation technologies, determining crop water requirements, and improving irrigation scheduling. Tatek has played a key role in designing and supervising various irrigation projects, including sprinkler, drip, and surface irrigation systems, while also providing technical support for the construction of irrigation canals, drainage systems, and water harvesting structures. Additionally, he has extensive experience in hydrological modeling and data analysis, utilizing advanced tools such as ArcGIS, ArcSWAT, DSSAT, and AquaCrop to enhance water management practices. Beyond research, he collaborates with farmers, government agencies, and research institutions, facilitating training programs and knowledge-sharing initiatives to promote sustainable agricultural water use. His work contributes significantly to improving irrigation strategies and water conservation efforts in Ethiopia and beyond.

Research Interest

Tatek Wondimu Negash’s research interests revolve around agricultural water management, hydrology, land use, and climate change, with a strong focus on optimizing irrigation efficiency and sustainable water resource utilization. He is particularly interested in studying soil-water-plant relationships to determine crop water requirements, improve irrigation scheduling, and enhance water use efficiency in semi-arid regions. His work also explores the impact of land use and land cover changes on watershed hydrology, employing advanced hydrological modeling techniques using tools such as ArcGIS, ArcSWAT, DSSAT, and AquaCrop. Additionally, he is engaged in developing innovative irrigation technologies and management practices that support smallholder farmers and large-scale irrigation projects. Through his research, Tatek aims to contribute to climate-resilient agricultural practices by integrating data-driven solutions and evidence-based decision-making for sustainable water resource management. His interdisciplinary approach bridges the gap between scientific research and practical applications, ensuring that his findings have a tangible impact on agricultural productivity and water conservation.

Award and Honor

Tatek Wondimu Negash has received notable awards and honors in recognition of his contributions to agricultural water management and irrigation research. He was awarded the Master’s Scholarship by the West Africa Center for Water, Irrigation, and Sustainable Agriculture (WACWISA), Ghana, funded by the World Bank under the African Centre of Excellence Impact (ACE Impact) Project, which supported his postgraduate studies in irrigation and drainage engineering. His research excellence has also earned him a place on the Editorial Board of the International Analytical Chemistry Awards (2025), recognizing his expertise in scientific research and analysis. Additionally, he has participated in prestigious professional development programs, including specialized training in integrated water resources management, eco-hydrology, and canal performance improvement conducted by international institutions. These achievements highlight his dedication to advancing water resource management and underscore his growing influence in the field of irrigation engineering and hydrological research.

Conclusion

Tatek Wondimu Negash is a strong candidate for the Best Researcher Award due to his extensive research contributions, technical expertise, and impact on agricultural water management. His peer-reviewed publications, irrigation research, modeling expertise, and stakeholder engagement highlight his suitability. While he could enhance his research profile with more international collaborations, higher citation impact, and independent research funding, his overall achievements make him a worthy contender for the award.

Publications Top Noted

Title: Optimal Irrigation Water Allocation for Enhanced Productivity of Haricot Bean (Phaseolus vulgaris) and Economic Gain: An Experiment Conducted in the Semi-Arid Area of Ethiopia

Authors:

  • Tatek Wondimu Negash (T.W. Negash)
  • Abera Tesfaye Tefera (A.T. Tefera)
  • Gobena Dirirsa Bayisa (G.D. Bayisa)
  • Tigist Damtew Worku (T.D. Worku)
  • Aynalem Gurms (A. Gurms)

Year: 2025

Journal: Journal of Agriculture and Food Research

Citations: 0 (as of now)