Liaoning Technical University - China
Author Profile
Scopus
🎓 Early Academic Pursuits
Dr. Yu-Mo Wu's academic journey began with a strong foundation in the physical sciences, particularly in thermodynamics and energy studies. His early academic pursuits focused on understanding molecular interactions, setting the stage for his later specialization in energy combustion and thermodynamic processes. Driven by a commitment to solving real-world energy challenges, Dr. Wu’s educational background paved the way for his extensive research on energy security and molecular thermodynamics.
💼 Professional Endeavors
Dr. Wu’s professional career is marked by significant contributions in academia and industry, primarily centered around energy security and thermodynamics. As a principal investigator and collaborator on numerous projects, he has led initiatives aimed at uncovering the molecular mechanisms of combustion, pyrolysis, and energy transformation. His professional endeavors extend to partnerships with energy corporations, where he provides consultancy to translate his research into practical, industry-aligned solutions.
🔬 Contributions and Research Focus
Dr. Yu-Mo Wu’s research focus revolves around the molecular dynamics of combustion and thermodynamic reactions. Utilizing machine learning potential, he has developed innovative models that simulate combustion processes, particularly focusing on oxygen-containing functional groups in coal. His contributions have significantly advanced our understanding of energy transformation at the molecular level, directly impacting both theoretical thermodynamics and practical energy applications. One of his notable works, Molecular Dynamics Simulation of Combustion Reaction Process and Products of Oxygen-Containing Functional Groups in Coal, reflects his dedication to this field.
🌍 Impact and Influence
Dr. Wu’s work has had a profound impact on the fields of thermodynamics and energy security. His research into the microscopic mechanisms of energy combustion has informed both scientific understanding and practical applications in energy production and safety. His studies are widely cited, underscoring his influence in the scientific community and his role in advancing thermodynamic research. Through editorial appointments and professional memberships, he continues to shape the discourse on energy security and thermodynamics globally.
🏆Academic Cites
Dr. Wu’s research has garnered numerous citations in high-impact journals, reflecting the significance of his contributions to the fields of thermodynamics and molecular energy studies. His work on molecular dynamics simulation in combustion, for instance, has become a reference point for other researchers, demonstrating the broad relevance of his findings in both academia and industry.
🌟 Legacy and Future Contributions
Dr. Yu-Mo Wu’s future contributions are poised to further deepen our understanding of thermodynamics, with a continued focus on the molecular underpinnings of energy reactions. His commitment to innovation, evidenced by his ongoing research and numerous publications, ensures that his legacy will influence energy research for years to come. As he continues to lead groundbreaking projects and mentor upcoming scientists, his work promises to advance the field of thermodynamics, contributing to energy solutions and enhancing global energy security.
📝Thermodynamics
Dr. Yu-Mo Wu’s research in thermodynamics emphasizes the molecular aspects of energy reactions, particularly in combustion and pyrolysis. His work in thermodynamics has led to the development of advanced simulation models, shedding light on reaction processes from a molecular perspective. Dr. Wu’s ongoing innovations in thermodynamics will likely yield further insights into energy transformation processes, influencing both scientific research and industry applications.
Notable Publication
📝Molecular Simulation Study of Adsorption-Diffusion of CH₄, CO₂, and H₂O in Gas-Fat Coal
Authors: Jia, J., Xing, Y., Li, B., Wu, Y., Wang, D.
Journal: Scientific Reports
Year: 2024
Citations: 0
📝Molecular Simulations of Multivariate Competitive Adsorption of CH₄, CO₂, and H₂O in Gas-Fat Coal
Authors: Jia, J., Xing, Y., Li, B., Yang, Q., Wang, D.
Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
Year: 2024
Citations: 7
📝Research on the Adsorption-Diffusion Mechanism of Hydrogen Sulfide Based on Monte Carlo Simulation
Authors: Jia, J., Xing, Y., Li, B., Yang, Q., Wang, D.
Journal: Meitan Xuebao/Journal of the China Coal Society
Year: 2024
Citations: 1
📝Study on Smoke Blocking and Thermal Radiation Attenuation by Water Curtain in Tunnel Fire
Authors: Chen, Y., Jia, J., Che, G., Shen, Z., Wu, Y.
Journal: Scientific Reports
Year: 2023
Citations: 3
📝Construction and Optimization of Macromolecular Structure Model of Tiebei Lignite
Authors: Jia, J., Xiao, L., Wang, D., Xing, Y., Wu, Y.
Journal: PLoS ONE
Year: 2023
Citations: 3
📝Prediction of the Penetration Radius of Cumulative Blasting
Authors: Jia, J., Wu, Y., Zhao, D., Li, B., Wang, D.
Journal: ACS Omega
Year: 2023
Citations: 0