Kindly note that we have put a lot of effort into researching the best books on Particle Methods For Fluid Flow Simulation subject and came out with a recommended list of top 10 best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on "Particle Methods For Fluid Flow Simulation" as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.
1. “Computer Simulation Using Particles” by R W Hockney and J W Eastwood
“Computer Simulation Using Particles” Book Review: This book provides an introduction to simulation using particles based on CIC and different algorithms and principles. The chapters included are a onedimensional plasma model, the simulation program, the particlemesh force calculation and plasma simulation. Other topics covered are astrophysics, fourier transforms, fourier series and finite fourier transforms. Case study examples are provided for better understanding. This book can be used by applied mathematical and physics students.


2. “Vortex Methods: Theory and Practice” by G H Cottet and P D Koumoutsakos
“Vortex Methods: Theory and Practice” Book Review: This book explains analyse vortex methods. This book covers chapters like definitions and governing equations, vortex methods for twodimensional flows, inviscid flows and inviscid boundary conditions. Other chapters included are viscous vortex methods, hybrid methods, lagrangian grid distortions. Problems and solutions are included for making concepts clear. Students studying numerical analysis and fluid mechanics can use this book.


3. “Smoothed Particle Hydrodynamics: A Meshfree Particle Method” by G R Liu and M B Liu
“Smoothed Particle Hydrodynamics: A Meshfree Particle Method” Book Review: This book describes the core principles of hydrodynamics. The main chapters mentioned are numerical simulation, SPH concept and essential formulation, construction smoothing functions and SPH for general dynamics fluid flows. Other topics involved are discontinuous SPH, SPH for simulating explosions and SPH for underwater explosion shock simulation. Examples with proper diagrams are given in detail. This book can be used by applied physics and graduate mechanical students.


4. “Molecular Gas Dynamics and the Direct Simulation of Gas Flows” by G A Bird
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“Molecular Gas Dynamics and the Direct Simulation of Gas Flows” Book Review: This book provides an overview of the concept of molecular gas dynamics and its methods. Main chapters included are molecular hypothesis, elementary gas kinetic theory, Avogadro’s law, molecular collisions and binary collision dynamics. Other topics mentioned are the Boltzmann equation, moment transfer equation, Htheorem and equilibrium. Equations are explained in detail. This book can be used by mechanical, applied physics and chemistry students.


5. “Collective Dynamics of Particles: from Viscous to Turbulent Flows (CISM International Centre for Mechanical Sciences)” by Cristian Marchioli
“Collective Dynamics of Particles: from Viscous to Turbulent Flows (CISM International Centre for Mechanical Sciences)” Book Review: This book provides the methods required to stimulate rigid particles. The main chapters included are gassolid flows, effective equations of motion for particle tracking. Other topics included are liquidsolid flows, force coupling methods and Reynold numbers. Examples of applications of every concept are given. High resolution images are also provided for students’ understanding. This book can be used by students studying applied physics and mechanical engineering.


6. “Granular Dynamics, Contact Mechanics and Particle System Simulations (Particle Technology Series)” by Colin Thornton
“Granular Dynamics, Contact Mechanics and Particle System Simulations (Particle Technology Series)” Book Review: This book focuses on discrete element method technique. This book presents a detailed theoretical explanation of the DEM method. Chapters mentioned are contact mechanics, other contact force models, particle impact, agglomerate impacts and fluidised beds. Other topics discussed are other contact force models and quasistatic deformation. Equations and examples are provided in a detailed manner. This book is suitable for physics and engineering students.


7. “Fluid Simulation for Computer Graphics” by Robert Bridson
“Fluid Simulation for Computer Graphics” Book Review: This book contains information regarding fluid simulation and mastering visual effects. Main chapters included are the equations of fluids, overview of numerical simulation, advection algorithms, level set geometry and making fluid incompressible. Other topics included are more types of fluids: smoke, water and fire, viscous fluids, algorithms for turbulence and shallow water. Examples and algorithms are explained in depth. This book can be used by visual effects and computer graphics students.


8. “Vortex Flows and Related Numerical Methods (Nato Science Series C:)” by Thomas J Polascik and GeorgesHenri Cottet
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“Vortex Flows and Related Numerical Methods (Nato Science Series C)” Book Review: This book explains vortex flows and structures. Chapters involved are eulerian methods, finite differences, spectral and wavelet methods. Other topics covered are vorticity generation by solid bodies, 2D or 3D turbulence and vortex reconnection. Methods and techniques are discussed with examples for simple explanation of topics. This book is suitable for numerical analysis and fluid mechanics students.


9. “Microscopic Simulations of Complex Flows (Nato Science Series B:)” by Michel Mareschal
“Microscopic Simulations of Complex Flows (Nato Science Series B)” Book Review: This book contains the information covered in a workshop held in Brussels on the topic of microscopic simulations of complex flows. Chapters mentioned are phenomenological theory, macroscopic behaviour of numerical systems, molecular dynamics simulation. Equations and techniques are discussed clearly. This book can be referred to by applied physics students.


10. “Fluid Simulation for Computer Graphics” by Robert Bridson
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“Fluid Simulation for Computer Graphics” Book Review: This book contains information regarding fluid simulation and mastering visual effects. Main chapters included are the equations of fluids, overview of numerical simulation, advection algorithms, level set geometry and making fluid incompressible. Other topics included are more types of fluids: smoke, water and fire, viscous fluids, algorithms for turbulence and shallow water. Examples and algorithms are explained in depth. This book can be used by visual effects and computer graphics students.


11. “Simulation Based Engineering in Fluid Flow Design (SpringerBriefs in Applied Sciences and Technology)” by J S Rao
“Simulation Based Engineering in Fluid Flow Design (SpringerBriefs in Applied Sciences and Technology)” Book Review: This book provides the background of highperformance computing. Main chapters involved are fluid statics, pressure in fluid at rest, buoyancy and basics of thermodynamics. Other topics namely finite volume method, adiabatic, isentropic and supersonic flows, nozzle flows with normal shocks using turbulence models. CFD examples with solutions are added for easy understanding. This book can be used by applied physics and mathematics students.


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