The book captures the essence of the Eighth International Conference on Fluid Mechanics and Industrial Applications (FMIA 2025). These original and peer-reviewed research papers delve into recent developments and applications of parallel computing in the field of fluid mechanics, CFD, fluid power, fluid flow and related disciplines.
This volume covers basic formulations and their computer modelling as well as the relationship between experimental and analytical results. It touches upon a wide array of topics including Aerodynamics, Thermodynamics and Heat Transfer, and Fluid Theory and Related Algorithms. The inclusion of innovative research contributions and practical applications makes this book a repository of novel ideas highlighting the latest developments in fluid mechanics.
This is a highly beneficial guide for researchers from industry and academia, practitioners, students, and technology enthusiasts.
The book captures the essence of the Eighth International Conference on Fluid Mechanics and Industrial Applications (FMIA 2025). These original and peer-reviewed research papers delve into recent developments and applications of parallel computing in the field of fluid mechanics, CFD, fluid power, fluid flow and related disciplines.
Study on flow instability of supercritical RP-3 in a multi-channel
system; Application of CFD in the study of support interference of transport
plane standard model; Photocatalytic fluid chemical mechanical polishing
achieves ultra-smooth surfaces for additively manufactured AlSi10Mg; The
influence of variable geometric lip on supersonic inlet performance; Research
on thermodynamic calculation correction method for phase adjustment and
pressure water process of pump turbine; Numerical study of the impact of
temperature on an axial fan performance; Multi-scenario calibration method
for double-Gaussian wake model based on DE-SQP cooperative optimization; PIV
experimental study on the effectiveness of SDBD plasma aerodynamic excitation
parameters on body force; Experimental study on constant rheology water-based
drilling fluids with different types of base slurries; Research on harmonic
balance method for turbulent simulation of compressor flow; Energy efficiency
analysis of heated tobacco products using coupled numerical models of heating
device and cigarette
Zhigang Fang received his Ph.D. in 2013 and joined Wuhan University of Technology as a lecturer in 2014. His research focuses on energy recovery of automobile shock absorbers, vehicle energy-saving technology, CFD, heat transfer, energy conversion, also engaged in the modelling and simulation of complex systems in multidisciplinary fields, hydraulic and fluid mechanics simulation, system dynamics simulation, energy conversion and efficiency simulation and verification.
