Special Issues
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Recent Advances in Computational Fluid Dynamics

Submission Deadline: 31 March 2025 View: 174 Submit to Special Issue

Guest Editors

Dr. Xi Deng, Imperial College London, UK.
Dr. Xi Deng is working as a research scientist at the Department of Chemical Engineering, Imperial College London. He received his PhD degree from Tokyo Institute of Technology in 2018. From 2018 to 2019, he was a postdoctoral researcher at Aix-Marseille University. From 2019 to 2021, he worked as a research associate at the Department of Aeronautics, Imperial College London. After that, he joined the Department of Engineering at the University of Cambridge for two-year postdoctoral research. His research interests are centered around computational fluid dynamics.

Prof. Zhenhua Jiang, Beihang University, China.
Dr. Zhenhua Jiang works as an Associate Professor in the College of Aeronautics Science and Engineering at Beihang University. He receives his doctoral degree in the College of Aeronautics Science and Engineering at Beihang University in 2015. He has visited Tokyo Institute of Technology as a visiting scholar in 2018. His research interests include computational fluid dynamics, hypersonic aerodynamics, high order method and compressible turbulence. He serves as the Youth Editorial Board for Aerodynamic Research & Experiment and Aerospace Technology. He has published more than forty papers and hosted more than ten research projects.

Summary

Computational fluid dynamics (CFD) is an important tool for academic research and industrial applications and is extensively used in various fields such as aerospace engineering, materials science, mechanical and chemical engineering, just to cite a few. With recent advances in computer science and technology, CFD methods are now enjoying a widespread use due to their significant advantages over theoretical methods and direct experimentation. Further progresses, however, are needed for the development and application of new multi-fidelity CFD approaches able to cope with multi-scale and multi-physics problems.

 

This Special Issue invites the submission of research and review papers that address the development of multi-fidelity CFD approaches and their application in industry. Topics of interest for this Special Issue essentially relate to the following areas:

 

· Numerical methods in CFD;

· Multiphase flow simulation;

· Reacting flow modelling;

· Fluid-structure interactions;

· Application of CFD in materials sciences.


Keywords

Computational fluid dynamics, numerical methods, multiphase flows, fluid-structure interaction, materials science

Published Papers


  • Open Access

    ARTICLE

    High-Order DG Schemes with Subcell Limiting Strategies for Simulations of Shocks, Vortices and Sound Waves in Materials Science Problems

    Zhenhua Jiang, Xi Deng, Xin Zhang, Chao Yan, Feng Xiao, Jian Yu
    FDMP-Fluid Dynamics & Materials Processing, Vol.20, No.10, pp. 2183-2204, 2024, DOI:10.32604/fdmp.2024.053231
    (This article belongs to the Special Issue: Recent Advances in Computational Fluid Dynamics)
    Abstract Shock waves, characterized by abrupt changes in pressure, temperature, and density, play a significant role in various materials science processes involving fluids. These high-energy phenomena are utilized across multiple fields and applications to achieve unique material properties and facilitate advanced manufacturing techniques. Accurate simulations of these phenomena require numerical schemes that can represent shock waves without spurious oscillations and simultaneously capture acoustic waves for a wide range of wavelength scales. This work suggests a high-order discontinuous Galerkin (DG) method with a finite volume (FV) subcell limiting strategies to achieve better subcell resolution and lower numerical More >

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