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

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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