Posted on 14/12/202412/12/2024 by ScienceFather Jingzhu Wang | Hydrodynamics | Best Researcher Award Prof. Jingzhu Wang, Institute of Mechanics, Chinese Academy of Sciences, China. Prof. Jingzhu Wang is an Associate Researcher at the Institute of Mechanics, Chinese Academy of Sciences. His research focuses on interfacial hydrodynamics, particularly cavitation bubble collapse and free surface stability, contributing to the design of high-speed interfacial equipment. He has led major projects funded by the National Natural Science Foundation and other national programs. Prof. Wang has published extensively in top journals, including Journal of Fluid Mechanics and Physical Review Fluids. He has received several prestigious awards, including the ASME Best Paper Award in 2019, and is an active member of academic committees. Publication profile Scopus Education and Experience 2017.05ā2019.12: Assistant Researcher, Institute of Mechanics, Chinese Academy of SciencesĀ 2019.12āPresent: Associate Researcher, Institute of Mechanics, Chinese Academy of SciencesĀ 2008.09ā2012.07: Bachelor, Dalian Maritime University, ChinaĀ 2013.04ā2015.03: Master’s Degree, Kobe University, JapanĀ 2015.04ā2017.03: Ph.D., Kobe University, JapanĀ Suitability For The Award Prof. Jingzhu Wang is an outstanding candidate for the Best Researcher Award due to his pioneering work in interfacial hydrodynamics, particularly in cavitation bubble collapse and free surface stability. His leadership in major national research initiatives, impactful publications, and recognition from prestigious organizations highlight his significant contributions to fluid dynamics. Prof. Wangās research has advanced high-speed interfacial equipment design, making him a leader in the field. Professional DevelopmentĀ Prof. Wang has made significant strides in advancing interfacial hydrodynamics research, particularly focusing on cavitation bubble collapse and free surface stability. His work has led to breakthroughs in high-speed interfacial equipment design. As a recognized leader in his field, Prof. Wang holds multiple academic roles, including positions on editorial boards of prominent journals. He has been honored with the 2019 ASME Best Paper Award in CFD and was selected for the Youth Innovation Promotion Association of the Chinese Academy of Sciences. His ongoing efforts contribute to various national and international scientific committees.Ā Research FocusĀ Prof. Wangās research delves into interfacial hydrodynamics, particularly addressing challenges like cavitation bubble collapse and free surface stability. This research has critical applications in the development of high-speed interfacial equipment, which is crucial for industries such as ocean engineering and fluid dynamics. By improving the understanding of these phenomena, Prof. Wang’s work enables advancements in the design of more efficient and effective machinery. His contributions are foundational to the continued development of technologies involving fluid-structure interaction, particularly in high-speed environments.Ā Awards and HonorsĀ Best Paper AwardĀ (CFD category), American Society of Mechanical Engineers (ASME) 2019Ā Young Talent Support Program, China Association for Science and Technology, 2020Ā “Excellent Training Program” B Category, Institute of Mechanics, Chinese Academy of Sciences, 2021Ā Youth Innovation Promotion Association, Chinese Academy of Sciences, 2021Ā Publications Top Notes Physics-enhanced data-driven turbulence model for flow around submerged bodies, Ocean Engineering, 2025, 119779Ā Crown control in a pair of cavitation bubbles close to a free surface: A numerical study, Physics of Fluids, 2024, 107127Ā Modeling two-phase flows with complicated interface evolution using parallel physics-informed neural networks, Physics of Fluids, 2024, 093330Ā Cavitation caused by an elastic membrane deforming under the jetting of a spark-induced bubble, Physical Review Fluids, 2024, 093604Ā Numerical analysis of ice-breaking effects induced by two interacting bubbles using the coupled boundary element method and peridynamics model, Physics of Fluids, 2024, 097110Ā A reduction-consistent phase field model for non-isothermal multiphase flows of N immiscible incompressible fluids, International Journal of Heat and Mass Transfer, 2024, 125657Ā Jetting of a near-wall cavitation bubble induced by another tandem bubble, Journal of Hydrodynamics, 2024, 444ā456Ā Dynamics of tandem bubble interaction near tissue, Physics of Fluids, 2024, 053324Ā Wall vortex induced by the collapse of a near-wall cavitation bubble: Influence of the water surface, Physical Review Fluids, 2024, 053602Ā Jingzhu Wang | Hydrodynamics | Best Researcher Award