Welcome to My CFD Lab: An Album for Numerical Simulation Projects
Dive into the captivating world of Computational Fluid Dynamics (CFD), where intricate physics come alive through advanced numerical simulations. In this collection, I showcase my expertise in modeling multi-physics phenomena, including fluid flow, the dynamics of heat and mass transfer, solid mechanics, and multi-body dynamics. Each project reflects a comprehensive understanding of the complexities that govern the physical world.
Explore how I’ve utilized cutting-edge techniques like Finite Volume Methods and Finite Element Methods to address real-world challenges. From simulating transport phenomena in porous media to analyzing solid mechanics and optimizing dynamic systems, my work encompasses a wide range of physical processes.
I invite you to journey through my featured projects, where you’ll witness the synergy of various physics disciplines, adaptive mesh techniques, free-surface modeling, and more! Let’s unravel the mysteries of fluid dynamics together and enhance your understanding of complex systems. Join me as we explore the natural forces that shape our environments.
Now, let’s get started and investigate the following fields.
Pore-scale Flow and Particle Tracing
In this category, you will find simulations of fluid flow through porous media at the pore scale, as well as particle tracing methods for predicting the positions of injected particles within the medium
Two-phase Pore-scale flow
If you are interested in the application of the Level Set method, you can find a simulation related to imbibition in porous media at the pore scale
Multi-phase fluid flow
In this section, I will present simulations for capturing the fluid-fluid interface that occurs in multi-phase flow using a fixed computational grid strategy
Phase Change Material
If you are interested in PCM simulation, I present several simulations that employ either fixed or moving mesh strategies to accurately capture the interface between the solid and liquid phases of the PCM
Heat Transfer in Porous Media
In this section, I will explore the fascinating dynamics of convection-conduction heat transfer in porous media. By understanding how heat moves through these complex structures, we can unlock new possibilities in energy efficiency, environmental engineering, and materials science
Equipment
In this section, I will delve into engaging simulations of fascinating equipment, including the innovative Stirling Engine and cutting-edge fuel cells. These simulations will not only showcase the functionality of each technology but also highlight their real-world applications and potential to revolutionize energy solutions
Fluid-Soild Interaction
In this section, you'll encounter a variety of problems focused on fluid-solid interactions. Here, I solve the governing equations of fluid flow coupled with those of solid mechanics and body dynamics.
Free surface and fluid-fluid interface simulation
In this section, I present several simulations designed to capture the free surface and fluid-fluid interface using a moving computational grid strategy.
Free and Porous Media Flow
Here, you can find simulations of coupled flow in free and porous media, where each region has its own momentum equations that are coupled with the other region