Dr. Yangmin Kuang is an Associate Professor at the College of Marine Science and Technology, China University of Geosciences, specializing in energy and environmental engineering with a focus on gas hydrates, nanobubbles, and carbon capture and storage. He holds a PhD from Dalian University of Technology and has conducted international research as a visiting scholar at the Australian National University. Dr. Kuang has authored over 20 peer-reviewed publications in high-impact journals, contributing significantly to the understanding of hydrate kinetics, hydrate-based carbon sequestration, and nanobubble behavior. His interdisciplinary work combines experimental techniques, numerical simulations, and molecular-scale analysis to address global challenges in energy exploitation and climate mitigation. His research has practical applications in natural gas extraction and CO₂ sequestration in marine environments. With a strong academic foundation, international collaboration experience, and a growing publication record, Dr. Kuang is emerging as a leading researcher in the fields of marine energy systems and environmental sustainability.
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Dr. Yangmin Kuang holds a comprehensive academic background in energy and environmental engineering, earned through progressive degrees from the Dalian University of Technology, China. He completed his Bachelor’s degree (2011–2015) with a focus on new energy systems such as solar, wind, hydrogen, and natural gas hydrate. He pursued a Master’s degree (2015–2017), specializing in the numerical simulation of gas hydrate exploitation and sediment analysis. His doctoral studies (2017–2021) further deepened his expertise in gas hydrate nucleation and decomposition, particularly through in-situ MRI observation and nanobubble kinetics. His PhD research produced multiple high-impact publications and laid a strong foundation for his academic career. During his PhD, he demonstrated strong capability in applying multidisciplinary methods to complex environmental and energy-related challenges. This rigorous and focused educational background has equipped him with the skills necessary to lead advanced research in marine energy systems, hydrate technology, and sustainable environmental engineering.
Dr. Yangmin Kuang is currently an Associate Professor at the College of Marine Science and Technology, China University of Geosciences, Wuhan. He has held this position since June 2021 and is actively engaged in cutting-edge research in marine natural gas hydrate exploitation, carbon capture and storage (CCUS), and underwater energy detection technologies. Prior to this role, Dr. Kuang expanded his international research experience as a visiting scholar at the Australian National University (2019–2020), where he collaborated with Professor Vincent Craig in the field of colloids, surfactants, and nanobubbles. This global academic exposure enhanced his cross-disciplinary approach to physical chemistry and environmental systems. Over the years, he has consistently bridged theoretical modeling, laboratory experimentation, and field-based applications. His professional journey reflects a clear trajectory of academic advancement, international collaboration, and technical leadership in solving real-world energy and environmental problems, especially those concerning hydrate systems and gas-liquid interface phenomena.
Dr. Kuang’s research interests center around natural gas hydrates, nanobubbles, carbon dioxide sequestration, and marine-based clean energy systems. He investigates the kinetics and mechanisms of gas hydrate formation and dissociation, employing advanced tools such as nuclear magnetic resonance (NMR) and magnetic resonance imaging (MRI). He is particularly interested in the hydrate memory effect, micro/nano-bubble dynamics, and the role of surfactants and additives in hydrate crystallization. His recent work extends to carbon capture, utilization, and storage (CCUS) technologies, especially hydrate-based CO₂ sequestration in marine sediments. Dr. Kuang also explores methods to enhance gas production efficiency through pressure oscillation and thermal stimulation in hydrate-bearing formations. By integrating experimental studies with numerical modeling and molecular simulations, his interdisciplinary approach contributes to the global effort to develop sustainable energy sources and mitigate climate change. His work is impactful in both fundamental science and applied engineering, addressing critical challenges in marine geoscience and environmental sustainability.
While Dr. Kuang’s CV does not explicitly list formal awards or honors, his academic achievements reflect significant recognition within his field. He has published over 20 research papers in internationally respected journals such as Energy & Fuels, Journal of Physical Chemistry C, AIChE Journal, and Chemical Engineering Journal, often as the first or corresponding author—demonstrating leadership and substantial contribution. His selection as a visiting scholar at the Australian National University and his collaborations with internationally known researchers also indicate professional esteem. His work on hydrate-based CO₂ sequestration and gas hydrate exploitation has been widely cited, signaling its importance in environmental and energy engineering. Though formal honors are not detailed, his growing research impact, international collaborations, and academic progression to Associate Professor at a relatively early stage mark him as a high-potential researcher with clear distinction in his field. Recognition through formal awards would further reinforce his professional visibility and influence.
Dr. Yangmin Kuang is an accomplished early-career researcher whose work lies at the intersection of marine science, energy engineering, and climate technology. His strong academic training, international research experience, and impactful publications position him as a rising expert in gas hydrate systems and carbon sequestration. As an Associate Professor, he leads projects focused on sustainable energy exploitation and marine carbon capture, using innovative tools such as NMR, nanotechnology, and numerical modeling. Though not yet decorated with major formal honors, his scholarly output and global collaborations reflect increasing recognition. Dr. Kuang’s research directly contributes to addressing energy security and environmental challenges, making him a valuable asset to both the academic and applied science communities. With continued support, increased visibility, and recognition through awards, he is poised to become a leading figure in environmental sustainability and energy resource management in the years ahead.
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Title: Kinetic enhancement of capturing and storing greenhouse gas and volatile organic compound: Micro-mechanism and micro-structure of hydrate growth
Authors: L. Zhang, Y. Kuang, S. Dai, J. Wang, J. Zhao, Y. Song
Year: 2020
Citations: 128
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Title: Physical characteristic analysis of unconsolidated sediments containing gas hydrate recovered from the Shenhu Area of the South China Sea
Authors: Y. Kuang, L. Yang, Q. Li, X. Lv, Y. Li, B. Yu, S. Leng, Y. Song, J. Zhao
Year: 2019
Citations: 108
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Title: Effects of depressurization on gas production and water performance from excess-gas and excess-water methane hydrate accumulations
Authors: L. Zhang, H. Dong, S. Dai, Y. Kuang, L. Yang, J. Wang, J. Zhao, Y. Song
Year: 2022
Citations: 84
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Title: Influence of core scale permeability on gas production from methane hydrate by thermal stimulation
Authors: Y. Song, Y. Kuang, Z. Fan, Y. Zhao, J. Zhao
Year: 2018
Citations: 76
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Title: Effects of micro-bubbles on the nucleation and morphology of gas hydrate crystals
Authors: Y. Kuang, Y. Feng, L. Yang, Y. Song, J. Zhao
Year: 2019
Citations: 47
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Title: Study of hydrate nucleation and growth aided by micro-nanobubbles: Probing the hydrate memory effect
Authors: Y. Feng, Y. Han, P. Gao, Y. Kuang, L. Yang, J. Zhao, Y. Song
Year: 2024
Citations: 46
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Title: Quantitative determination of pore‐structure change and permeability estimation under hydrate phase transition by NMR
Authors: Y. Kuang, L. Zhang, Y. Song, L. Yang, J. Zhao
Year: 2020
Citations: 44
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Title: Molecular simulations on the stability and dynamics of bulk nanobubbles in aqueous environments
Authors: Y. Lu, L. Yang, Y. Kuang, Y. Song, J. Zhao, A.K. Sum
Year: 2021
Citations: 43
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Title: Observation of In Situ Growth and Decomposition of Carbon Dioxide Hydrate at Gas–Water Interfaces Using Magnetic Resonance Imaging
Authors: Y. Kuang, X. Lei, L. Yang, Y. Zhao, J. Zhao
Year: 2018
Citations: 43
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Title: Analyzing the process of gas production from methane hydrate via nitrogen injection
Authors: L. Zhang, Y. Kuang, X. Zhang, Y. Song, Y. Liu, J. Zhao
Year: 2017
Citations: 42
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Title: Enhanced CO₂ sequestration based on hydrate technology with pressure oscillation in porous medium using NMR
Authors: Y. Kuang, L. Zhang, Y. Zheng
Year: 2022
Citations: 41
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Title: MRI analysis for methane hydrate dissociation by depressurization and the concomitant ice generation
Authors: Z. Fan, C. Sun, Y. Kuang, B. Wang, J. Zhao, Y. Song
Year: 2017
Citations: 32
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Title: Molecular dynamics simulation and in-situ MRI observation of organic exclusion during CO₂ hydrate growth
Authors: L. Zhang, L. Sun, Y. Lu, Y. Kuang, Z. Ling, L. Yang, H. Dong, S. Yang, J. Zhao, …
Year: 2021
Citations: 21
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Title: Research status and prospects of CO₂ geological sequestration technology from onshore to offshore: A review
Authors: Z. Lin, Y. Kuang, W. Li, Y. Zheng
Year: 2024
Citations: 20
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Title: Morphology study of hydrate shell crystal growth on a microbubble interface in the presence of additives
Authors: Y. Kuang, Y. Zheng, W. Dai, H. Li, J. Wang, Y. Liu, X. Teng, Z. Zhang, J. Zheng
Year: 2023
Citations: 12