"Computational Fluid Dynamics: Analysis, Simulations, and Applications" ed. by Mahboub Baccouch

This book comprehensively explores numerical methods and their applications across diverse fields, strongly focusing on computational fluid dynamics (CFD) and advanced modeling techniques. Whether you’re looking to deepen your understanding of numerical methods, enhance your CFD expertise, or explore innovative applications, this book is a valuable resource for gaining actionable insights and fostering innovation in computational modeling.

Starting with numerical approaches for solving the viscid and inviscid Burgers equations establishes a foundation for understanding complex fluid dynamics. Subsequent chapters delve into cutting-edge topics, including Large Eddy Simulations (LES) for turbulence modeling, heat transfer analysis, and the influence of working fluids on vortex dynamics in industrial pipelines. The book also explores emerging areas such as nanoscale simulations, plasmonic excitations, and biomedical applications like hemodynamics in atrial fibrillation. Real-world case studies and practical examples demonstrate the versatility of CFD in addressing challenges in engineering, biology, and energy systems. This book combines theoretical rigour with practical insights and is designed for advanced undergraduate and graduate students, researchers, and professionals. It bridges the gap between numerical theory and real-world applications, providing readers with the tools to solve complex problems across various scientific and engineering domains.

Contents
1. Numerical Methods for the Viscid and Inviscid Burgers Equations
2. Fundamentals and Theory of Large Eddy Simulation
3. A Numerical Study of the Minimum-Dissipation Model for Large-Eddy Simulation in OpenFOAM
4. Recent Advancements in Large Eddy Simulations of Compressible Real Gas Flows
5. Heat Transfer and Thermal Analysis with Computational Fluid Dynamics
6. Plasmonic Excitations in Carbon Nanotubes: PIC Simulations vs Hydrodynamic Model
7. Influence of Working Fluid on the Mean Flow Vortex Structure in Industrial Flow Pipelines of Arbitrary Bend Angle via RANS Simulation
8. Analysis of Flow Dynamics and Energy Dissipation in Piano Key and Labyrinth Weirs Using Computational Fluid Dynamics
9. Computational Fluid Dynamics Simulations to Deepen Understanding of the Hemodynamic Underlying Atrial Fibrillation and Improve Therapeutic Approaches
10. Applications of Particle Image Velocimetry in Internal Combustion Engines Research


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